Ganesh Gore
GitHub
commit
10ffa82804
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@ -7,7 +7,9 @@ RUN curl -fsSL https://code-server.dev/install.sh | sh
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RUN apt-get install -y nodejs
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RUN apt-get install tree
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RUN code-server --install-extension ms-python.python
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RUN code-server --install-extension mechatroner
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RUN code-server --install-extension mechatroner.rainbow-csv
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RUN code-server --install-extension wavetrace.wavetrace
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RUN code-server --install-extension dotjoshjohnson.xml
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RUN usermod -u 2000 openfpga_user
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RUN groupmod -g 2000 openfpga_user
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@ -185,7 +185,7 @@ texinfo_documents = [
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]
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bibtex_bibfiles = ["z_reference.bib"]
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bibtex_bibfiles = ["./appendix/z_reference.bib"]
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# -- Options for Epub output -------------------------------------------------
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@ -203,3 +203,22 @@ epub_title = project
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# A list of files that should not be packed into the epub file.
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epub_exclude_files = ['search.html']
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# ========
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# Headings
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# ========
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#
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# Headings
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# ========
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#
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# Heading 3
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# ---------
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#
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# Heading 4
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# ^^^^^^^^^
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#
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# Heading 5
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# ~~~~~~~~~
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#
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# Heading 6
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# *********
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@ -1,17 +1,18 @@
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OpenFPGA shortcuts
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------------------
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OpenFPGA Shell Commands
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-----------------------
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OpenFPGA provides `bash`/`zsh` shell-based shortcuts to perform all essential functions and navigate through the directories. Go to the OpenFPGA directory and source ``openfpga.sh``
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OpenFPGA provides `bash`/`zsh` shell-based shortcuts to perform all essential functions and navigate through the directories. Go to the OpenFPGA directory and source ``openfpga.sh``,
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.. code-block:: bash
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export OPENFPGA_PATH=<path-to-openfpga-repository-root>
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cd ${OPENFPGA_PATH} && source openfpga.sh
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.. note::
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The OpenFPGA shortcut works with only a bash-like shell. e.g., `bash`/`zsh`/`fish,` etc.
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Shortcut Commands
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^^^^^^^^^^^^^^^^^
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Commands
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^^^^^^^^
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Once the ``openfpga.sh`` script is sourced, you can run any following commands directly in the terminal.
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@ -38,13 +39,21 @@ Once the ``openfpga.sh`` script is sourced, you can run any following commands d
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for example ``create-task _my_task_copy basic_tests/generate_fabric`` create a copy of the ``basic_tests/generate_fabric`` task in
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the current directory with ``_my_task_copy`` name.
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.. option:: run-modelsim
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.. option:: goto_task <task_name> <run_num[default 0]>
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This command navigate shell to specific run-directory of the given task.
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For example `goto_task lab1 2` will change directory to `run002` runt directory of `lab2`
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.. option:: clear-task-run <task_name>
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Clears all run diretories of the given task
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.. option:: run-modelsim <task_name>
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This command runs the verification using ModelSim.
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The test benches are generated during the OpenFPGA run.
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**Note**: users need to have ``VSIM`` installed and configured
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.. option:: run-regression-local
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This script runs the regression test locally using the current version of OpenFPGA.
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19
openfpga.sh
19
openfpga.sh
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@ -41,15 +41,15 @@ create-task () {
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return
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fi
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template="template_tasks/yosys_vpr_template"
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if [ ${#2} -ge 1 ]; then
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if [ ${#2} -ge 1 ]; then
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if [[ "$2" == "vpr_blif" ]]; then template="template_tasks/${2}_template/";
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elif [[ "$2" == "yosys_vpr" ]]; then template="template_tasks/${2}_template/";
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elif [[ "$2" == "vtr_benchmarks" ]]; then template="template_tasks/${2}_template/";
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else template="$2"
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elif [[ "$2" == "yosys_vpr" ]]; then template="template_tasks/${2}_template/";
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elif [[ "$2" == "vtr_benchmarks" ]]; then template="template_tasks/${2}_template/";
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else template="$2"
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fi
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fi
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if [ ! -f $OPENFPGA_PATH/openfpga_flow/tasks/${template}/config/task.conf ]; then
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echo "Template project [${template}] does not exist" ; return;
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if [ ! -f $OPENFPGA_PATH/openfpga_flow/tasks/${template}/config/task.conf ]; then
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echo "Template project [${template}] does not exist" ; return;
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fi
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echo "Creating task $1"
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echo "Template project ${template}"
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@ -57,6 +57,11 @@ create-task () {
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cp -r $OPENFPGA_PATH/openfpga_flow/tasks/${template}/* $1/
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}
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rerun-task () {
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$PYTHON_EXEC $OPENFPGA_SCRIPT_PATH/run_fpga_task.py "$@" --remove_run_dir all
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$PYTHON_EXEC $OPENFPGA_SCRIPT_PATH/run_fpga_task.py "$@"
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}
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run-task () {
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$PYTHON_EXEC $OPENFPGA_SCRIPT_PATH/run_fpga_task.py "$@"
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}
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@ -66,7 +71,7 @@ clean-run () {
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}
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clear-task-run () {
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$PYTHON_EXEC $OPENFPGA_SCRIPT_PATH/run_fpga_task.py "$@" --remove_run_dir all
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$PYTHON_EXEC $OPENFPGA_SCRIPT_PATH/run_fpga_task.py "$@" --remove_run_dir all
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}
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run-modelsim () {
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@ -203,8 +203,9 @@ run-task basic_tests/io_constraints/empty_pcf $@
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run-task basic_tests/io_constraints/pcf_ql_style $@
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echo -e "Testing project templates";
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run-task template_tasks/vpr_blif_template $@
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run-task template_tasks/yosys_vpr_template $@
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run-task template_tasks/fabric_netlist_gen_template $@
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run-task template_tasks/fabric_verification_template $@
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run-task template_tasks/frac-lut-arch-explore_template $@
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run-task template_tasks/vtr_benchmarks_template $@
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echo -e "Testing create tsk from template and run task"
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@ -1,11 +1,3 @@
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<!-- Architecture annotation for OpenFPGA framework
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This annotation supports the k6_N10_40nm.xml
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- General purpose logic block
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- K = 6, N = 10, I = 40
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- Single mode
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- Routing architecture
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- L = 4, fc_in = 0.15, fc_out = 0.1
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-->
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<openfpga_architecture>
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<technology_library>
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<device_library>
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@ -157,21 +149,18 @@
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<segment name="L4" circuit_model_name="chan_segment"/>
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</routing_segment>
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<pb_type_annotations>
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<!-- physical pb_type binding in complex block IO -->
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<pb_type name="clb">
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<interconnect name="crossbar" circuit_model_name="mux_2level"/>
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</pb_type>
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<pb_type name="clb.fle" physical_mode_name="physical"/>
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<pb_type name="clb.fle[physical].ble6.lut6" circuit_model_name="lut6"/>
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<pb_type name="clb.fle[physical].ble6.ff" circuit_model_name="DFFSRQ"/>
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<pb_type name="clb.fle[n1_lut6].ble6.lut6" physical_pb_type_name="clb.fle[physical].ble6.lut6"/>
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<pb_type name="clb.fle[n1_lut6].ble6.ff" physical_pb_type_name="clb.fle[physical].ble6.ff"/>
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<pb_type name="io" physical_mode_name="physical"/>
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<pb_type name="io[physical].iopad" circuit_model_name="GPIO" mode_bits="1"/>
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<pb_type name="io[inpad].inpad" physical_pb_type_name="io[physical].iopad" mode_bits="1"/>
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<pb_type name="io[outpad].outpad" physical_pb_type_name="io[physical].iopad" mode_bits="0"/>
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<!-- End physical pb_type binding in complex block IO -->
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<!-- physical pb_type binding in complex block CLB -->
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<!-- physical mode will be the default mode if not specified -->
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<pb_type name="clb">
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<!-- Binding interconnect to circuit models as their physical implementation, if not defined, we use the default model -->
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<interconnect name="crossbar" circuit_model_name="mux_2level"/>
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</pb_type>
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<pb_type name="clb.fle[n1_lut6].ble6.lut6" circuit_model_name="lut6"/>
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<pb_type name="clb.fle[n1_lut6].ble6.ff" circuit_model_name="DFFSRQ"/>
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<!-- End physical pb_type binding in complex block IO -->
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</pb_type_annotations>
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</openfpga_architecture>
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@ -0,0 +1,226 @@
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<?xml version="1.0" ?>
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<architecture>
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<models>
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<model name="io">
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<input_ports>
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<port name="outpad"/>
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</input_ports>
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<output_ports>
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<port name="inpad"/>
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</output_ports>
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</model>
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</models>
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<tiles>
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<tile name="io" area="0">
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<sub_tile name="io" capacity="8">
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<equivalent_sites>
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<site pb_type="io"/>
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</equivalent_sites>
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<input name="outpad" num_pins="1"/>
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<output name="inpad" num_pins="1"/>
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<fc in_type="frac" in_val="0.15" out_type="frac" out_val="0.10"/>
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<pinlocations pattern="custom">
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<loc side="left">io.outpad io.inpad</loc>
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<loc side="top">io.outpad io.inpad</loc>
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<loc side="right">io.outpad io.inpad</loc>
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<loc side="bottom">io.outpad io.inpad</loc>
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</pinlocations>
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</sub_tile>
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</tile>
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<tile name="clb" area="53894">
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<sub_tile name="clb">
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<equivalent_sites>
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<site pb_type="clb"/>
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</equivalent_sites>
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<input name="I" num_pins="40" equivalent="full"/>
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<output name="O" num_pins="20" equivalent="none"/>
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<clock name="clk" num_pins="1"/>
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<fc in_type="frac" in_val="0.15" out_type="frac" out_val="0.10"/>
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<pinlocations pattern="spread"/>
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</sub_tile>
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</tile>
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</tiles>
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<!-- Physical descriptions begin -->
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<layout tileable="true">
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<auto_layout aspect_ratio="1.0">
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<!--Perimeter of 'io' blocks with 'EMPTY' blocks at corners-->
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<perimeter type="io" priority="100"/>
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<corners type="EMPTY" priority="101"/>
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<!--Fill with 'clb'-->
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<fill type="clb" priority="10"/>
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</auto_layout>
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</layout>
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<device>
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<sizing R_minW_nmos="8926" R_minW_pmos="16067"/>
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<area grid_logic_tile_area="0"/>
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<chan_width_distr>
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<x distr="uniform" peak="1.000000"/>
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<y distr="uniform" peak="1.000000"/>
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</chan_width_distr>
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<switch_block type="wilton" fs="3"/>
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<connection_block input_switch_name="ipin_cblock"/>
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</device>
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<switchlist>
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<switch type="mux" name="0" R="551" Cin=".77e-15" Cout="4e-15" Tdel="58e-12" mux_trans_size="2.630740" buf_size="27.645901"/>
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<switch type="mux" name="ipin_cblock" R="2231.5" Cout="0." Cin="1.47e-15" Tdel="7.247000e-11" mux_trans_size="1.222260" buf_size="auto"/>
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</switchlist>
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<segmentlist>
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<segment name="L4" freq="1.000000" length="4" type="unidir" Rmetal="101" Cmetal="22.5e-15">
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<mux name="0"/>
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<sb type="pattern">1 1 1 1 1</sb>
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<cb type="pattern">1 1 1 1</cb>
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</segment>
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</segmentlist>
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<complexblocklist>
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<pb_type name="io">
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<input name="outpad" num_pins="1"/>
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<output name="inpad" num_pins="1"/>
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<mode name="physical" disable_packing="true">
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<pb_type name="iopad" blif_model=".subckt io" num_pb="1">
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<input name="outpad" num_pins="1"/>
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<output name="inpad" num_pins="1"/>
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</pb_type>
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<interconnect>
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<direct name="outpad" input="io.outpad" output="iopad.outpad">
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<delay_constant max="1.394e-11" in_port="io.outpad" out_port="iopad.outpad"/>
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</direct>
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<direct name="inpad" input="iopad.inpad" output="io.inpad">
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<delay_constant max="4.243e-11" in_port="iopad.inpad" out_port="io.inpad"/>
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</direct>
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</interconnect>
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</mode>
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<mode name="inpad">
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<pb_type name="inpad" blif_model=".input" num_pb="1">
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<output name="inpad" num_pins="1"/>
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</pb_type>
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<interconnect>
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<direct name="inpad" input="inpad.inpad" output="io.inpad">
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<delay_constant max="4.243e-11" in_port="inpad.inpad" out_port="io.inpad"/>
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</direct>
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</interconnect>
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</mode>
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<mode name="outpad">
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<pb_type name="outpad" blif_model=".output" num_pb="1">
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<input name="outpad" num_pins="1"/>
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</pb_type>
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<interconnect>
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<direct name="outpad" input="io.outpad" output="outpad.outpad">
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<delay_constant max="1.394e-11" in_port="io.outpad" out_port="outpad.outpad"/>
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</direct>
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</interconnect>
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</mode>
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<power method="ignore"/>
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</pb_type>
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<pb_type name="clb">
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<input name="I" num_pins="40" equivalent="full"/>
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<output name="O" num_pins="20" equivalent="none"/>
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<clock name="clk" num_pins="1"/>
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<pb_type name="fle" num_pb="10">
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<input name="in" num_pins="6"/>
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<output name="out" num_pins="1"/>
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<clock name="clk" num_pins="1"/>
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<!-- physical mode -->
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<mode name="physical" disable_packing="true">
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<!-- Define 6-LUT mode -->
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<pb_type name="ble6" num_pb="1">
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<input name="in" num_pins="6"/>
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<output name="out" num_pins="1"/>
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<clock name="clk" num_pins="1"/>
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<!-- Define LUT -->
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<pb_type name="lut6" blif_model=".names" num_pb="1" class="lut">
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<input name="in" num_pins="6" port_class="lut_in"/>
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<output name="out" num_pins="1" port_class="lut_out"/>
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<delay_matrix type="max" in_port="lut6.in" out_port="lut6.out">
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261e-12
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261e-12
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261e-12
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261e-12
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261e-12
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261e-12
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</delay_matrix>
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</pb_type>
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<pb_type name="ff" blif_model=".latch" num_pb="1" class="flipflop">
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<input name="D" num_pins="1" port_class="D"/>
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<output name="Q" num_pins="1" port_class="Q"/>
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<clock name="clk" num_pins="1" port_class="clock"/>
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<T_setup value="66e-12" port="ff.D" clock="clk"/>
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<T_clock_to_Q max="124e-12" port="ff.Q" clock="clk"/>
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</pb_type>
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<interconnect>
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<direct name="direct1" input="ble6.in" output="lut6[0:0].in"/>
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<direct name="direct2" input="lut6.out" output="ff.D">
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<pack_pattern name="ble6" in_port="lut6.out" out_port="ff.D"/>
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</direct>
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<direct name="direct3" input="ble6.clk" output="ff.clk"/>
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<mux name="mux1" input="ff.Q lut6.out" output="ble6.out">
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<delay_constant max="25e-12" in_port="lut6.out" out_port="ble6.out"/>
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<delay_constant max="45e-12" in_port="ff.Q" out_port="ble6.out"/>
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</mux>
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</interconnect>
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</pb_type>
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<interconnect>
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<direct name="direct1" input="fle.in[5:0]" output="ble6.in"/>
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<direct name="direct2" input="ble6.out" output="fle.out[0:0]"/>
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<direct name="direct3" input="fle.clk" output="ble6.clk"/>
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</interconnect>
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</mode>
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<!-- end of physical mode -->
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<!-- 6-LUT mode definition begin -->
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<mode name="n1_lut6">
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<!-- Define 6-LUT mode -->
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<pb_type name="ble6" num_pb="1">
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<input name="in" num_pins="6"/>
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<output name="out" num_pins="1"/>
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<clock name="clk" num_pins="1"/>
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<!-- Define LUT -->
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<pb_type name="lut6" blif_model=".names" num_pb="1" class="lut">
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<input name="in" num_pins="6" port_class="lut_in"/>
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<output name="out" num_pins="1" port_class="lut_out"/>
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<delay_matrix type="max" in_port="lut6.in" out_port="lut6.out">
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261e-12
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261e-12
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261e-12
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261e-12
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261e-12
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261e-12
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</delay_matrix>
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</pb_type>
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<pb_type name="ff" blif_model=".latch" num_pb="1" class="flipflop">
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<input name="D" num_pins="1" port_class="D"/>
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<output name="Q" num_pins="1" port_class="Q"/>
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<clock name="clk" num_pins="1" port_class="clock"/>
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<T_setup value="66e-12" port="ff.D" clock="clk"/>
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<T_clock_to_Q max="124e-12" port="ff.Q" clock="clk"/>
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</pb_type>
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<interconnect>
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<direct name="direct1" input="ble6.in" output="lut6[0:0].in"/>
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<direct name="direct2" input="lut6.out" output="ff.D">
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<pack_pattern name="ble6" in_port="lut6.out" out_port="ff.D"/>
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</direct>
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<direct name="direct3" input="ble6.clk" output="ff.clk"/>
|
||||
<mux name="mux1" input="ff.Q lut6.out" output="ble6.out">
|
||||
<delay_constant max="25e-12" in_port="lut6.out" out_port="ble6.out"/>
|
||||
<delay_constant max="45e-12" in_port="ff.Q" out_port="ble6.out"/>
|
||||
</mux>
|
||||
</interconnect>
|
||||
</pb_type>
|
||||
<interconnect>
|
||||
<direct name="direct1" input="fle.in[5:0]" output="ble6.in"/>
|
||||
<direct name="direct2" input="ble6.out" output="fle.out[0:0]"/>
|
||||
<direct name="direct3" input="fle.clk" output="ble6.clk"/>
|
||||
</interconnect>
|
||||
</mode>
|
||||
<!-- n1_lut6 -->
|
||||
</pb_type>
|
||||
<interconnect>
|
||||
<complete name="crossbar" input="clb.I fle[9:0].out" output="fle[9:0].in">
|
||||
<delay_constant max="95e-12" in_port="clb.I" out_port="fle[9:0].in"/>
|
||||
<delay_constant max="75e-12" in_port="fle[9:0].out" out_port="fle[9:0].in"/>
|
||||
</complete>
|
||||
<complete name="clks" input="clb.clk" output="fle[9:0].clk">
|
||||
</complete>
|
||||
<direct name="clbouts1" input="fle[9:0].out" output="clb.O[9:0]"/>
|
||||
</interconnect>
|
||||
</pb_type>
|
||||
</complexblocklist>
|
||||
</architecture>
|
||||
|
|
@ -0,0 +1,192 @@
|
|||
<openfpga_architecture>
|
||||
<technology_library>
|
||||
<device_library>
|
||||
<device_model name="logic" type="transistor">
|
||||
<lib type="industry" corner="TOP_TT" ref="M" path="${OPENFPGA_PATH}/openfpga_flow/tech/PTM_45nm/45nm.pm"/>
|
||||
<design vdd="0.9" pn_ratio="2"/>
|
||||
<pmos name="pch" chan_length="40e-9" min_width="140e-9" variation="logic_transistor_var"/>
|
||||
<nmos name="nch" chan_length="40e-9" min_width="140e-9" variation="logic_transistor_var"/>
|
||||
</device_model>
|
||||
<device_model name="io" type="transistor">
|
||||
<lib type="academia" ref="M" path="${OPENFPGA_PATH}/openfpga_flow/tech/PTM_45nm/45nm.pm"/>
|
||||
<design vdd="2.5" pn_ratio="3"/>
|
||||
<pmos name="pch_25" chan_length="270e-9" min_width="320e-9" variation="io_transistor_var"/>
|
||||
<nmos name="nch_25" chan_length="270e-9" min_width="320e-9" variation="io_transistor_var"/>
|
||||
</device_model>
|
||||
</device_library>
|
||||
<variation_library>
|
||||
<variation name="logic_transistor_var" abs_deviation="0.1" num_sigma="3"/>
|
||||
<variation name="io_transistor_var" abs_deviation="0.1" num_sigma="3"/>
|
||||
</variation_library>
|
||||
</technology_library>
|
||||
<circuit_library>
|
||||
<circuit_model type="inv_buf" name="INVTX1" prefix="INVTX1" is_default="true">
|
||||
<design_technology type="cmos" topology="inverter" size="1"/>
|
||||
<device_technology device_model_name="logic"/>
|
||||
<port type="input" prefix="in" size="1"/>
|
||||
<port type="output" prefix="out" size="1"/>
|
||||
<delay_matrix type="rise" in_port="in" out_port="out">
|
||||
10e-12
|
||||
</delay_matrix>
|
||||
<delay_matrix type="fall" in_port="in" out_port="out">
|
||||
10e-12
|
||||
</delay_matrix>
|
||||
</circuit_model>
|
||||
<circuit_model type="inv_buf" name="buf4" prefix="buf4" is_default="false">
|
||||
<design_technology type="cmos" topology="buffer" size="1" num_level="2" f_per_stage="4"/>
|
||||
<device_technology device_model_name="logic"/>
|
||||
<port type="input" prefix="in" size="1"/>
|
||||
<port type="output" prefix="out" size="1"/>
|
||||
<delay_matrix type="rise" in_port="in" out_port="out">
|
||||
10e-12
|
||||
</delay_matrix>
|
||||
<delay_matrix type="fall" in_port="in" out_port="out">
|
||||
10e-12
|
||||
</delay_matrix>
|
||||
</circuit_model>
|
||||
<circuit_model type="inv_buf" name="tap_buf4" prefix="tap_buf4" is_default="false">
|
||||
<design_technology type="cmos" topology="buffer" size="1" num_level="3" f_per_stage="4"/>
|
||||
<device_technology device_model_name="logic"/>
|
||||
<port type="input" prefix="in" size="1"/>
|
||||
<port type="output" prefix="out" size="1"/>
|
||||
<delay_matrix type="rise" in_port="in" out_port="out">
|
||||
10e-12
|
||||
</delay_matrix>
|
||||
<delay_matrix type="fall" in_port="in" out_port="out">
|
||||
10e-12
|
||||
</delay_matrix>
|
||||
</circuit_model>
|
||||
<circuit_model type="pass_gate" name="TGATE" prefix="TGATE" is_default="true">
|
||||
<design_technology type="cmos" topology="transmission_gate" nmos_size="1" pmos_size="2"/>
|
||||
<device_technology device_model_name="logic"/>
|
||||
<input_buffer exist="false"/>
|
||||
<output_buffer exist="false"/>
|
||||
<port type="input" prefix="in" size="1"/>
|
||||
<port type="input" prefix="sel" size="1"/>
|
||||
<port type="input" prefix="selb" size="1"/>
|
||||
<port type="output" prefix="out" size="1"/>
|
||||
<delay_matrix type="rise" in_port="in sel selb" out_port="out">
|
||||
10e-12 5e-12 5e-12
|
||||
</delay_matrix>
|
||||
<delay_matrix type="fall" in_port="in sel selb" out_port="out">
|
||||
10e-12 5e-12 5e-12
|
||||
</delay_matrix>
|
||||
</circuit_model>
|
||||
<circuit_model type="chan_wire" name="chan_segment" prefix="track_seg" is_default="true">
|
||||
<design_technology type="cmos"/>
|
||||
<input_buffer exist="false"/>
|
||||
<output_buffer exist="false"/>
|
||||
<port type="input" prefix="in" size="1"/>
|
||||
<port type="output" prefix="out" size="1"/>
|
||||
<wire_param model_type="pi" R="101" C="22.5e-15" num_level="1"/> <!-- model_type could be T, res_val and cap_val DON'T CARE -->
|
||||
</circuit_model>
|
||||
<circuit_model type="wire" name="direct_interc" prefix="direct_interc" is_default="true">
|
||||
<design_technology type="cmos"/>
|
||||
<input_buffer exist="false"/>
|
||||
<output_buffer exist="false"/>
|
||||
<port type="input" prefix="in" size="1"/>
|
||||
<port type="output" prefix="out" size="1"/>
|
||||
<wire_param model_type="pi" R="0" C="0" num_level="1"/> <!-- model_type could be T, res_val cap_val should be defined -->
|
||||
</circuit_model>
|
||||
<circuit_model type="mux" name="mux_2level" prefix="mux_2level" dump_structural_verilog="true">
|
||||
<design_technology type="cmos" structure="multi_level" num_level="2" add_const_input="true" const_input_val="1"/>
|
||||
<input_buffer exist="true" circuit_model_name="INVTX1"/>
|
||||
<output_buffer exist="true" circuit_model_name="INVTX1"/>
|
||||
<pass_gate_logic circuit_model_name="TGATE"/>
|
||||
<port type="input" prefix="in" size="1"/>
|
||||
<port type="output" prefix="out" size="1"/>
|
||||
<port type="sram" prefix="sram" size="1"/>
|
||||
</circuit_model>
|
||||
<circuit_model type="mux" name="mux_2level_tapbuf" prefix="mux_2level_tapbuf" dump_structural_verilog="true">
|
||||
<design_technology type="cmos" structure="multi_level" num_level="2" add_const_input="true" const_input_val="1"/>
|
||||
<input_buffer exist="true" circuit_model_name="INVTX1"/>
|
||||
<output_buffer exist="true" circuit_model_name="tap_buf4"/>
|
||||
<pass_gate_logic circuit_model_name="TGATE"/>
|
||||
<port type="input" prefix="in" size="1"/>
|
||||
<port type="output" prefix="out" size="1"/>
|
||||
<port type="sram" prefix="sram" size="1"/>
|
||||
</circuit_model>
|
||||
<circuit_model type="mux" name="mux_1level_tapbuf" prefix="mux_1level_tapbuf" is_default="true" dump_structural_verilog="true">
|
||||
<design_technology type="cmos" structure="one_level" add_const_input="true" const_input_val="1"/>
|
||||
<input_buffer exist="true" circuit_model_name="INVTX1"/>
|
||||
<output_buffer exist="true" circuit_model_name="tap_buf4"/>
|
||||
<pass_gate_logic circuit_model_name="TGATE"/>
|
||||
<port type="input" prefix="in" size="1"/>
|
||||
<port type="output" prefix="out" size="1"/>
|
||||
<port type="sram" prefix="sram" size="1"/>
|
||||
</circuit_model>
|
||||
<!--DFF subckt ports should be defined as <D> <Q> <CLK> <RESET> <SET> -->
|
||||
<circuit_model type="ff" name="DFFSRQ" prefix="DFFSRQ" spice_netlist="${OPENFPGA_PATH}/openfpga_flow/openfpga_cell_library/spice/dff.sp" verilog_netlist="${OPENFPGA_PATH}/openfpga_flow/openfpga_cell_library/verilog/dff.v">
|
||||
<design_technology type="cmos"/>
|
||||
<input_buffer exist="true" circuit_model_name="INVTX1"/>
|
||||
<output_buffer exist="true" circuit_model_name="INVTX1"/>
|
||||
<port type="input" prefix="D" size="1"/>
|
||||
<port type="input" prefix="set" lib_name="SET" size="1" is_global="true" default_val="0" is_set="true"/>
|
||||
<port type="input" prefix="reset" lib_name="RST" size="1" is_global="true" default_val="0" is_reset="true"/>
|
||||
<port type="output" prefix="Q" size="1"/>
|
||||
<port type="clock" prefix="clk" lib_name="CK" size="1" is_global="true" default_val="0" />
|
||||
</circuit_model>
|
||||
<circuit_model type="lut" name="lut6" prefix="lut6" dump_structural_verilog="true">
|
||||
<design_technology type="cmos"/>
|
||||
<input_buffer exist="true" circuit_model_name="INVTX1"/>
|
||||
<output_buffer exist="true" circuit_model_name="INVTX1"/>
|
||||
<lut_input_inverter exist="true" circuit_model_name="INVTX1"/>
|
||||
<lut_input_buffer exist="true" circuit_model_name="buf4"/>
|
||||
<lut_intermediate_buffer exist="true" circuit_model_name="buf4" location_map="--1--"/>
|
||||
<pass_gate_logic circuit_model_name="TGATE"/>
|
||||
<port type="input" prefix="in" size="6"/>
|
||||
<port type="output" prefix="out" size="1"/>
|
||||
<port type="sram" prefix="sram" size="64"/>
|
||||
</circuit_model>
|
||||
<!--Scan-chain DFF subckt ports should be defined as <D> <Q> <Qb> <CLK> <RESET> <SET> -->
|
||||
<circuit_model type="ccff" name="DFFR" prefix="DFFR" spice_netlist="${OPENFPGA_PATH}/openfpga_flow/openfpga_cell_library/spice/dff.sp" verilog_netlist="${OPENFPGA_PATH}/openfpga_flow/openfpga_cell_library/verilog/dff.v">
|
||||
<design_technology type="cmos"/>
|
||||
<input_buffer exist="true" circuit_model_name="INVTX1"/>
|
||||
<output_buffer exist="true" circuit_model_name="INVTX1"/>
|
||||
<port type="input" prefix="pReset" lib_name="RST" size="1" is_global="true" default_val="0" is_reset="true" is_prog="true"/>
|
||||
<port type="input" prefix="D" size="1"/>
|
||||
<port type="output" prefix="Q" size="1"/>
|
||||
<port type="output" prefix="QN" size="1"/>
|
||||
<port type="clock" prefix="prog_clk" lib_name="CK" size="1" is_global="true" default_val="0" is_prog="true"/>
|
||||
</circuit_model>
|
||||
<circuit_model type="iopad" name="GPIO" prefix="GPIO" spice_netlist="${OPENFPGA_PATH}/openfpga_flow/openfpga_cell_library/spice/gpio.sp" verilog_netlist="${OPENFPGA_PATH}/openfpga_flow/openfpga_cell_library/verilog/gpio.v">
|
||||
<design_technology type="cmos"/>
|
||||
<input_buffer exist="true" circuit_model_name="INVTX1"/>
|
||||
<output_buffer exist="true" circuit_model_name="INVTX1"/>
|
||||
<port type="inout" prefix="PAD" size="1" is_global="true" is_io="true" is_data_io="true"/>
|
||||
<port type="sram" prefix="DIR" size="1" mode_select="true" circuit_model_name="DFFR" default_val="1"/>
|
||||
<port type="input" prefix="outpad" lib_name="A" size="1"/>
|
||||
<port type="output" prefix="inpad" lib_name="Y" size="1"/>
|
||||
</circuit_model>
|
||||
</circuit_library>
|
||||
<configuration_protocol>
|
||||
<organization type="scan_chain" circuit_model_name="DFFR"/>
|
||||
</configuration_protocol>
|
||||
<connection_block>
|
||||
<switch name="ipin_cblock" circuit_model_name="mux_2level_tapbuf"/>
|
||||
</connection_block>
|
||||
<switch_block>
|
||||
<switch name="0" circuit_model_name="mux_2level_tapbuf"/>
|
||||
</switch_block>
|
||||
<routing_segment>
|
||||
<segment name="L4" circuit_model_name="chan_segment"/>
|
||||
</routing_segment>
|
||||
<pb_type_annotations>
|
||||
<!-- physical pb_type binding in complex block IO -->
|
||||
<pb_type name="io" physical_mode_name="physical" idle_mode_name="inpad"/>
|
||||
<pb_type name="io[physical].iopad" circuit_model_name="GPIO" mode_bits="1"/>
|
||||
<pb_type name="io[inpad].inpad" physical_pb_type_name="io[physical].iopad" mode_bits="1"/>
|
||||
<pb_type name="io[outpad].outpad" physical_pb_type_name="io[physical].iopad" mode_bits="0"/>
|
||||
<!-- End physical pb_type binding in complex block IO -->
|
||||
|
||||
<!-- physical pb_type binding in complex block CLB -->
|
||||
<!-- physical mode will be the default mode if not specified -->
|
||||
<pb_type name="clb">
|
||||
<!-- Binding interconnect to circuit models as their physical implementation, if not defined, we use the default model -->
|
||||
<interconnect name="crossbar" circuit_model_name="mux_2level"/>
|
||||
</pb_type>
|
||||
<pb_type name="clb.fle[n1_lut6].ble6.lut6" circuit_model_name="lut6"/>
|
||||
<pb_type name="clb.fle[n1_lut6].ble6.ff" circuit_model_name="DFFSRQ"/>
|
||||
<!-- End physical pb_type binding in complex block IO -->
|
||||
</pb_type_annotations>
|
||||
</openfpga_architecture>
|
||||
|
|
@ -0,0 +1,191 @@
|
|||
<?xml version="1.0" ?>
|
||||
<architecture>
|
||||
<models>
|
||||
<!-- A virtual model for I/O to be used in the physical mode of io block -->
|
||||
<model name="io">
|
||||
<input_ports>
|
||||
<port name="outpad"/>
|
||||
</input_ports>
|
||||
<output_ports>
|
||||
<port name="inpad"/>
|
||||
</output_ports>
|
||||
</model>
|
||||
</models>
|
||||
<tiles>
|
||||
<tile name="io" area="0">
|
||||
<sub_tile name="io" capacity="8">
|
||||
<equivalent_sites>
|
||||
<site pb_type="io"/>
|
||||
</equivalent_sites>
|
||||
<input name="outpad" num_pins="1"/>
|
||||
<output name="inpad" num_pins="1"/>
|
||||
<fc in_type="frac" in_val="0.15" out_type="frac" out_val="0.10"/>
|
||||
<pinlocations pattern="custom">
|
||||
<loc side="left">io.outpad io.inpad</loc>
|
||||
<loc side="top">io.outpad io.inpad</loc>
|
||||
<loc side="right">io.outpad io.inpad</loc>
|
||||
<loc side="bottom">io.outpad io.inpad</loc>
|
||||
</pinlocations>
|
||||
</sub_tile>
|
||||
</tile>
|
||||
<tile name="clb" area="53894">
|
||||
<sub_tile name="clb">
|
||||
<equivalent_sites>
|
||||
<site pb_type="clb"/>
|
||||
</equivalent_sites>
|
||||
<input name="I" num_pins="40" equivalent="full"/>
|
||||
<output name="O" num_pins="10" equivalent="none"/>
|
||||
<clock name="clk" num_pins="1"/>
|
||||
<fc in_type="frac" in_val="0.15" out_type="frac" out_val="0.10"/>
|
||||
<pinlocations pattern="spread"/>
|
||||
</sub_tile>
|
||||
</tile>
|
||||
</tiles>
|
||||
<!-- ODIN II specific config ends -->
|
||||
<!-- Physical descriptions begin -->
|
||||
<layout tileable="true">
|
||||
<auto_layout aspect_ratio="1.0">
|
||||
<!--Perimeter of 'io' blocks with 'EMPTY' blocks at corners-->
|
||||
<perimeter type="io" priority="100"/>
|
||||
<corners type="EMPTY" priority="101"/>
|
||||
<!--Fill with 'clb'-->
|
||||
<fill type="clb" priority="10"/>
|
||||
</auto_layout>
|
||||
</layout>
|
||||
<device>
|
||||
<sizing R_minW_nmos="8926" R_minW_pmos="16067"/>
|
||||
<area grid_logic_tile_area="0"/>
|
||||
<chan_width_distr>
|
||||
<x distr="uniform" peak="1.000000"/>
|
||||
<y distr="uniform" peak="1.000000"/>
|
||||
</chan_width_distr>
|
||||
<switch_block type="wilton" fs="3"/>
|
||||
<connection_block input_switch_name="ipin_cblock"/>
|
||||
</device>
|
||||
<switchlist>
|
||||
<switch type="mux" name="0" R="551" Cin=".77e-15" Cout="4e-15" Tdel="58e-12" mux_trans_size="2.630740" buf_size="27.645901"/>
|
||||
<switch type="mux" name="ipin_cblock" R="2231.5" Cout="0." Cin="1.47e-15" Tdel="7.247000e-11" mux_trans_size="1.222260" buf_size="auto"/>
|
||||
</switchlist>
|
||||
<segmentlist>
|
||||
<segment name="L4" freq="1.000000" length="4" type="unidir" Rmetal="101" Cmetal="22.5e-15">
|
||||
<mux name="0"/>
|
||||
<sb type="pattern">1 1 1 1 1</sb>
|
||||
<cb type="pattern">1 1 1 1</cb>
|
||||
</segment>
|
||||
</segmentlist>
|
||||
<complexblocklist>
|
||||
<pb_type name="io">
|
||||
<input name="outpad" num_pins="1"/>
|
||||
<output name="inpad" num_pins="1"/>
|
||||
<mode name="physical" disable_packing="true">
|
||||
<pb_type name="iopad" blif_model=".subckt io" num_pb="1">
|
||||
<input name="outpad" num_pins="1"/>
|
||||
<output name="inpad" num_pins="1"/>
|
||||
</pb_type>
|
||||
<interconnect>
|
||||
<direct name="outpad" input="io.outpad" output="iopad.outpad">
|
||||
<delay_constant max="1.394e-11" in_port="io.outpad" out_port="iopad.outpad"/>
|
||||
</direct>
|
||||
<direct name="inpad" input="iopad.inpad" output="io.inpad">
|
||||
<delay_constant max="4.243e-11" in_port="iopad.inpad" out_port="io.inpad"/>
|
||||
</direct>
|
||||
</interconnect>
|
||||
</mode>
|
||||
<mode name="inpad">
|
||||
<pb_type name="inpad" blif_model=".input" num_pb="1">
|
||||
<output name="inpad" num_pins="1"/>
|
||||
</pb_type>
|
||||
<interconnect>
|
||||
<direct name="inpad" input="inpad.inpad" output="io.inpad">
|
||||
<delay_constant max="4.243e-11" in_port="inpad.inpad" out_port="io.inpad"/>
|
||||
</direct>
|
||||
</interconnect>
|
||||
</mode>
|
||||
<mode name="outpad">
|
||||
<pb_type name="outpad" blif_model=".output" num_pb="1">
|
||||
<input name="outpad" num_pins="1"/>
|
||||
</pb_type>
|
||||
<interconnect>
|
||||
<direct name="outpad" input="io.outpad" output="outpad.outpad">
|
||||
<delay_constant max="1.394e-11" in_port="io.outpad" out_port="outpad.outpad"/>
|
||||
</direct>
|
||||
</interconnect>
|
||||
</mode>
|
||||
<!-- Every input pin is driven by 15% of the tracks in a channel, every output pin is driven by 10% of the tracks in a channel -->
|
||||
<!-- IOs go on the periphery of the FPGA, for consistency,
|
||||
make it physically equivalent on all sides so that only one definition of I/Os is needed.
|
||||
If I do not make a physically equivalent definition, then I need to define 4 different I/Os, one for each side of the FPGA
|
||||
-->
|
||||
<!-- Place I/Os on the sides of the FPGA -->
|
||||
<power method="ignore"/>
|
||||
</pb_type>
|
||||
<pb_type name="clb">
|
||||
<input name="I" num_pins="40" equivalent="full"/>
|
||||
<output name="O" num_pins="10" equivalent="none"/>
|
||||
<clock name="clk" num_pins="1"/>
|
||||
<pb_type name="fle" num_pb="10">
|
||||
<input name="in" num_pins="6"/>
|
||||
<output name="out" num_pins="1"/>
|
||||
<clock name="clk" num_pins="1"/>
|
||||
<!-- 6-LUT mode definition begin -->
|
||||
<mode name="n1_lut6">
|
||||
<!-- Define 6-LUT mode -->
|
||||
<pb_type name="ble6" num_pb="1">
|
||||
<input name="in" num_pins="6"/>
|
||||
<output name="out" num_pins="1"/>
|
||||
<clock name="clk" num_pins="1"/>
|
||||
<!-- Define LUT -->
|
||||
<pb_type name="lut6" blif_model=".names" num_pb="1" class="lut">
|
||||
<input name="in" num_pins="6" port_class="lut_in"/>
|
||||
<output name="out" num_pins="1" port_class="lut_out"/>
|
||||
<delay_matrix type="max" in_port="lut6.in" out_port="lut6.out">
|
||||
261e-12
|
||||
261e-12
|
||||
261e-12
|
||||
261e-12
|
||||
261e-12
|
||||
261e-12
|
||||
</delay_matrix>
|
||||
</pb_type>
|
||||
<!-- Define flip-flop -->
|
||||
<pb_type name="ff" blif_model=".latch" num_pb="1" class="flipflop">
|
||||
<input name="D" num_pins="1" port_class="D"/>
|
||||
<output name="Q" num_pins="1" port_class="Q"/>
|
||||
<clock name="clk" num_pins="1" port_class="clock"/>
|
||||
<T_setup value="66e-12" port="ff.D" clock="clk"/>
|
||||
<T_clock_to_Q max="124e-12" port="ff.Q" clock="clk"/>
|
||||
</pb_type>
|
||||
<interconnect>
|
||||
<direct name="direct1" input="ble6.in" output="lut6[0:0].in"/>
|
||||
<direct name="direct2" input="lut6.out" output="ff.D">
|
||||
<!-- Advanced user option that tells CAD tool to find LUT+FF pairs in netlist -->
|
||||
<pack_pattern name="ble6" in_port="lut6.out" out_port="ff.D"/>
|
||||
</direct>
|
||||
<direct name="direct3" input="ble6.clk" output="ff.clk"/>
|
||||
<mux name="mux1" input="ff.Q lut6.out" output="ble6.out">
|
||||
<!-- LUT to output is faster than FF to output on a Stratix IV -->
|
||||
<delay_constant max="25e-12" in_port="lut6.out" out_port="ble6.out"/>
|
||||
<delay_constant max="45e-12" in_port="ff.Q" out_port="ble6.out"/>
|
||||
</mux>
|
||||
</interconnect>
|
||||
</pb_type>
|
||||
<interconnect>
|
||||
<direct name="direct1" input="fle.in" output="ble6.in"/>
|
||||
<direct name="direct2" input="ble6.out" output="fle.out[0:0]"/>
|
||||
<direct name="direct3" input="fle.clk" output="ble6.clk"/>
|
||||
</interconnect>
|
||||
</mode>
|
||||
<!-- 6-LUT mode definition end -->
|
||||
</pb_type>
|
||||
<interconnect>
|
||||
<complete name="crossbar" input="clb.I fle[9:0].out" output="fle[9:0].in">
|
||||
<delay_constant max="95e-12" in_port="clb.I" out_port="fle[9:0].in"/>
|
||||
<delay_constant max="75e-12" in_port="fle[9:0].out" out_port="fle[9:0].in"/>
|
||||
</complete>
|
||||
<complete name="clks" input="clb.clk" output="fle[9:0].clk">
|
||||
</complete>
|
||||
<direct name="clbouts1" input="fle[9:0].out" output="clb.O"/>
|
||||
</interconnect>
|
||||
</pb_type>
|
||||
</complexblocklist>
|
||||
</architecture>
|
||||
|
|
@ -13,25 +13,29 @@ power_analysis = false
|
|||
spice_output=false
|
||||
verilog_output=true
|
||||
timeout_each_job = 20*60
|
||||
# fpga_flow= vpr_blif If input in in .blif format
|
||||
# fpga_flow= yosys_vpr If input in in .v format
|
||||
fpga_flow=vpr_blif
|
||||
fpga_flow=yosys_vpr
|
||||
|
||||
[OpenFPGA_SHELL]
|
||||
openfpga_shell_template=${PATH:TASK_DIR}/example_script.openfpga
|
||||
openfpga_arch_file=${PATH:TASK_DIR}/arch/openfpga_arch.xml
|
||||
openfpga_sim_setting_file=${PATH:OPENFPGA_PATH}/openfpga_flow/openfpga_simulation_settings/auto_sim_openfpga.xml
|
||||
openfpga_sim_setting_file=${PATH:OPENFPGA_PATH}/openfpga_flow/openfpga_simulation_settings/fixed_sim_openfpga.xml
|
||||
|
||||
[ARCHITECTURES]
|
||||
arch0=${PATH:TASK_DIR}/arch/vpr_arch.xml
|
||||
|
||||
[BENCHMARKS]
|
||||
bench0=${PATH:TASK_DIR}/micro_benchmark/and2/and2.blif
|
||||
bench0=${PATH:TASK_DIR}/micro_benchmark/and2/and2.v
|
||||
bench1=${PATH:TASK_DIR}/micro_benchmark/mult8/mult8.v
|
||||
|
||||
[SYNTHESIS_PARAM]
|
||||
# Yosys script parameters
|
||||
bench_read_verilog_options_common = -nolatches
|
||||
bench_yosys_common=${PATH:OPENFPGA_PATH}/openfpga_flow/misc/ys_tmpl_yosys_vpr_flow.ys
|
||||
|
||||
bench0_top = and2
|
||||
bench0_act = ${PATH:OPENFPGA_PATH}/openfpga_flow/benchmarks/micro_benchmark/and2/and2.act
|
||||
bench0_verilog = ${PATH:OPENFPGA_PATH}/openfpga_flow/benchmarks/micro_benchmark/and2/and2.v
|
||||
bench0_verilog = ${PATH:TASK_DIR}/micro_benchmark/and2/and2.v
|
||||
bench1_top = mult8
|
||||
bench1_verilog = ${PATH:TASK_DIR}/micro_benchmark/mult8/mult8.v
|
||||
|
||||
[SCRIPT_PARAM_MIN_ROUTE_CHAN_WIDTH]
|
||||
end_flow_with_test=
|
||||
|
|
@ -10,7 +10,7 @@ read_openfpga_simulation_setting -f ${OPENFPGA_SIM_SETTING_FILE}
|
|||
|
||||
# Annotate the OpenFPGA architecture to VPR data base
|
||||
# to debug use --verbose options
|
||||
link_openfpga_arch --activity_file ${ACTIVITY_FILE} --sort_gsb_chan_node_in_edges
|
||||
link_openfpga_arch --sort_gsb_chan_node_in_edges
|
||||
|
||||
# Check and correct any naming conflicts in the BLIF netlist
|
||||
check_netlist_naming_conflict --fix --report ./netlist_renaming.xml
|
||||
|
|
@ -44,6 +44,7 @@ build_fabric_bitstream --verbose
|
|||
|
||||
# Write fabric-dependent bitstream
|
||||
write_fabric_bitstream --file fabric_bitstream.bit --format plain_text
|
||||
write_fabric_bitstream --file fabric_bitstream.xml --format xml
|
||||
|
||||
# Write the Verilog netlist for FPGA fabric
|
||||
# - Enable the use of explicit port mapping in Verilog netlist
|
||||
|
|
@ -55,19 +56,9 @@ write_fabric_verilog --file ./SRC --explicit_port_mapping --include_timing --pri
|
|||
# - Enable top-level testbench which is a full verification including programming circuit and core logic of FPGA
|
||||
# - Enable pre-configured top-level testbench which is a fast verification skipping programming phase
|
||||
# - Simulation ini file is optional and is needed only when you need to interface different HDL simulators using openfpga flow-run scripts
|
||||
write_full_testbench --file ./SRC --reference_benchmark_file_path ${REFERENCE_VERILOG_TESTBENCH} --explicit_port_mapping --include_signal_init --bitstream fabric_bitstream.bit
|
||||
write_full_testbench --file ./SRC --reference_benchmark_file_path ${REFERENCE_VERILOG_TESTBENCH} --explicit_port_mapping --include_signal_init --bitstream fabric_bitstream.bit
|
||||
write_preconfigured_fabric_wrapper --embed_bitstream iverilog --file ./SRC --explicit_port_mapping
|
||||
write_preconfigured_testbench --file ./SRC --reference_benchmark_file_path ${REFERENCE_VERILOG_TESTBENCH} --explicit_port_mapping
|
||||
|
||||
# Write the SDC files for PnR backend
|
||||
# - Turn on every options here
|
||||
write_pnr_sdc --file ./SDC
|
||||
|
||||
# Write SDC to disable timing for configure ports
|
||||
write_sdc_disable_timing_configure_ports --file ./SDC/disable_configure_ports.sdc
|
||||
|
||||
# Write the SDC to run timing analysis for a mapped FPGA fabric
|
||||
write_analysis_sdc --file ./SDC_analysis
|
||||
write_preconfigured_testbench --file ./SRC --reference_benchmark_file_path ${REFERENCE_VERILOG_TESTBENCH} --explicit_port_mapping
|
||||
|
||||
# Finish and exit OpenFPGA
|
||||
exit
|
||||
|
|
@ -0,0 +1,22 @@
|
|||
//-------------------------------------------------------
|
||||
// Functionality: A 8-bit combinational multiply circuit
|
||||
//-------------------------------------------------------
|
||||
|
||||
module mult8(a_0, a_1, a_2, a_3, a_4, a_5, a_6, a_7,
|
||||
b_0, b_1, b_2, b_3, b_4, b_5, b_6, b_7,
|
||||
out_0, out_1, out_2, out_3, out_4, out_5, out_6, out_7,
|
||||
out_8, out_9, out_10, out_11, out_12, out_13, out_14, out_15);
|
||||
input a_0, a_1, a_2, a_3, a_4, a_5, a_6, a_7;
|
||||
input b_0, b_1, b_2, b_3, b_4, b_5, b_6, b_7;
|
||||
output out_0, out_1, out_2, out_3, out_4, out_5, out_6, out_7;
|
||||
output out_8, out_9, out_10, out_11, out_12, out_13, out_14, out_15;
|
||||
|
||||
assign a = {a_0, a_1, a_2, a_3, a_4, a_5, a_6, a_7};
|
||||
assign b = {b_0, b_1, b_2, b_3, b_4, b_5, b_6, b_7};
|
||||
assign out = {out_0, out_1, out_2, out_3, out_4, out_5, out_6, out_7, out_8, out_9, out_10, out_11, out_12, out_13, out_14, out_15};
|
||||
|
||||
assign out = a*b;
|
||||
|
||||
endmodule
|
||||
|
||||
|
||||
|
|
@ -0,0 +1,49 @@
|
|||
# = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = =
|
||||
# Configuration file for running experiments
|
||||
# = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = =
|
||||
# timeout_each_job : FPGA Task script splits fpga flow into multiple jobs
|
||||
# Each job execute fpga_flow script on combination of architecture & benchmark
|
||||
# timeout_each_job is timeout for each job
|
||||
# = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = =
|
||||
|
||||
[GENERAL]
|
||||
run_engine=openfpga_shell
|
||||
power_tech_file = ${PATH:OPENFPGA_PATH}/openfpga_flow/tech/PTM_45nm/45nm.xml
|
||||
power_analysis = false
|
||||
spice_output=false
|
||||
verilog_output=true
|
||||
timeout_each_job = 20*60
|
||||
fpga_flow=yosys_vpr
|
||||
|
||||
[OpenFPGA_SHELL]
|
||||
openfpga_shell_template=${PATH:TASK_DIR}/vtr_benchmark_template_script.openfpga
|
||||
openfpga_arch_file=${PATH:TASK_DIR}/openfpga_arch.xml
|
||||
vpr_route_chan_width=300
|
||||
|
||||
[ARCHITECTURES]
|
||||
arch0=${PATH:TASK_DIR}/k6_N10_tileable.xml
|
||||
arch1=${PATH:TASK_DIR}/k6_frac_N10_tileable.xml
|
||||
|
||||
[BENCHMARKS]
|
||||
bench1=${PATH:BENCH_PATH}/vtr_benchmark/ch_intrinsics.v
|
||||
bench2=${PATH:BENCH_PATH}/vtr_benchmark/diffeq1.v
|
||||
bench3=${PATH:BENCH_PATH}/vtr_benchmark/diffeq2.v
|
||||
bench4=${PATH:BENCH_PATH}/vtr_benchmark/sha.v
|
||||
|
||||
[SYNTHESIS_PARAM]
|
||||
# Yosys script parameters
|
||||
bench_read_verilog_options_common = -nolatches
|
||||
bench_yosys_common=${PATH:OPENFPGA_PATH}/openfpga_flow/misc/ys_tmpl_yosys_vpr_flow.ys
|
||||
|
||||
# Benchmark top_module name
|
||||
bench1_top = memset
|
||||
bench2_top = diffeq_paj_convert
|
||||
bench3_top = diffeq_f_systemC
|
||||
bench4_top = sha1
|
||||
|
||||
[SCRIPT_PARAM_]
|
||||
#
|
||||
|
||||
[DEFAULT_PARSE_RESULT_VPR]
|
||||
01_lut6_use = "lut6 : ([0-9]+)", int
|
||||
02_lut5_use = "lut5 : ([0-9]+)", int
|
||||
|
|
@ -0,0 +1,198 @@
|
|||
<?xml version="1.0" ?>
|
||||
<architecture>
|
||||
<models>
|
||||
<model name="io">
|
||||
<input_ports>
|
||||
<port name="outpad"/>
|
||||
</input_ports>
|
||||
<output_ports>
|
||||
<port name="inpad"/>
|
||||
</output_ports>
|
||||
</model>
|
||||
</models>
|
||||
<tiles>
|
||||
<tile name="io" area="0">
|
||||
<sub_tile name="io" capacity="8">
|
||||
<equivalent_sites>
|
||||
<site pb_type="io"/>
|
||||
</equivalent_sites>
|
||||
<input name="outpad" num_pins="1"/>
|
||||
<output name="inpad" num_pins="1"/>
|
||||
<fc in_type="frac" in_val="0.15" out_type="frac" out_val="0.10"/>
|
||||
<pinlocations pattern="custom">
|
||||
<loc side="left">io.outpad io.inpad</loc>
|
||||
<loc side="top">io.outpad io.inpad</loc>
|
||||
<loc side="right">io.outpad io.inpad</loc>
|
||||
<loc side="bottom">io.outpad io.inpad</loc>
|
||||
</pinlocations>
|
||||
</sub_tile>
|
||||
</tile>
|
||||
<tile name="clb" area="53894">
|
||||
<sub_tile name="clb">
|
||||
<equivalent_sites>
|
||||
<site pb_type="clb"/>
|
||||
</equivalent_sites>
|
||||
<input name="I" num_pins="40" equivalent="full"/>
|
||||
<input name="cin" num_pins="1"/>
|
||||
<output name="O" num_pins="20" equivalent="none"/>
|
||||
<output name="cout" num_pins="1"/>
|
||||
<clock name="clk" num_pins="1"/>
|
||||
<fc in_type="frac" in_val="0.15" out_type="frac" out_val="0.10">
|
||||
<fc_override port_name="cin" fc_type="frac" fc_val="0"/>
|
||||
<fc_override port_name="cout" fc_type="frac" fc_val="0" />
|
||||
</fc>
|
||||
<pinlocations pattern="custom">
|
||||
<loc side="left">clb.clk</loc>
|
||||
<loc side="top">clb.cin</loc>
|
||||
<loc side="right">clb.O[9:0] clb.I[19:0]</loc>
|
||||
<loc side="bottom">clb.cout clb.O[19:10] clb.I[39:20]</loc>
|
||||
</pinlocations>
|
||||
</sub_tile>
|
||||
</tile>
|
||||
</tiles>
|
||||
<!-- ODIN II specific config ends -->
|
||||
<!-- Physical descriptions begin -->
|
||||
<layout tileable="true" through_channel="false">
|
||||
<auto_layout aspect_ratio="1.0">
|
||||
<perimeter type="io" priority="100"/>
|
||||
<corners type="EMPTY" priority="101"/>
|
||||
<fill type="clb" priority="10"/>
|
||||
<col type="EMPTY" startx="2" repeatx="8" starty="1" priority="19"/>
|
||||
</auto_layout>
|
||||
<fixed_layout name="3x2" width="5" height="4">
|
||||
<perimeter type="io" priority="100"/>
|
||||
<corners type="EMPTY" priority="101"/>
|
||||
<fill type="clb" priority="10"/>
|
||||
<col type="EMPTY" startx="2" repeatx="8" starty="1" priority="19"/>
|
||||
</fixed_layout>
|
||||
</layout>
|
||||
<device>
|
||||
<sizing R_minW_nmos="8926" R_minW_pmos="16067"/>
|
||||
<area grid_logic_tile_area="0"/>
|
||||
<chan_width_distr>
|
||||
<x distr="uniform" peak="1.000000"/>
|
||||
<y distr="uniform" peak="1.000000"/>
|
||||
</chan_width_distr>
|
||||
<switch_block type="wilton" fs="3"/>
|
||||
<connection_block input_switch_name="ipin_cblock"/>
|
||||
</device>
|
||||
<switchlist>
|
||||
<switch type="mux" name="0" R="551" Cin=".77e-15" Cout="4e-15" Tdel="58e-12" mux_trans_size="2.630740" buf_size="27.645901"/>
|
||||
<switch type="mux" name="ipin_cblock" R="2231.5" Cout="0." Cin="1.47e-15" Tdel="7.247000e-11" mux_trans_size="1.222260" buf_size="auto"/>
|
||||
</switchlist>
|
||||
<segmentlist>
|
||||
<segment name="L4" freq="1.000000" length="4" type="unidir" Rmetal="101" Cmetal="22.5e-15">
|
||||
<mux name="0"/>
|
||||
<sb type="pattern">1 1 1 1 1</sb>
|
||||
<cb type="pattern">1 1 1 1</cb>
|
||||
</segment>
|
||||
</segmentlist>
|
||||
<complexblocklist>
|
||||
<pb_type name="io">
|
||||
<input name="outpad" num_pins="1"/>
|
||||
<output name="inpad" num_pins="1"/>
|
||||
<mode name="physical" disable_packing="true">
|
||||
<pb_type name="iopad" blif_model=".subckt io" num_pb="1">
|
||||
<input name="outpad" num_pins="1"/>
|
||||
<output name="inpad" num_pins="1"/>
|
||||
</pb_type>
|
||||
<interconnect>
|
||||
<direct name="outpad" input="io.outpad" output="iopad.outpad">
|
||||
<delay_constant max="1.394e-11" in_port="io.outpad" out_port="iopad.outpad"/>
|
||||
</direct>
|
||||
<direct name="inpad" input="iopad.inpad" output="io.inpad">
|
||||
<delay_constant max="4.243e-11" in_port="iopad.inpad" out_port="io.inpad"/>
|
||||
</direct>
|
||||
</interconnect>
|
||||
</mode>
|
||||
<mode name="inpad">
|
||||
<pb_type name="inpad" blif_model=".input" num_pb="1">
|
||||
<output name="inpad" num_pins="1"/>
|
||||
</pb_type>
|
||||
<interconnect>
|
||||
<direct name="inpad" input="inpad.inpad" output="io.inpad">
|
||||
<delay_constant max="4.243e-11" in_port="inpad.inpad" out_port="io.inpad"/>
|
||||
</direct>
|
||||
</interconnect>
|
||||
</mode>
|
||||
<mode name="outpad">
|
||||
<pb_type name="outpad" blif_model=".output" num_pb="1">
|
||||
<input name="outpad" num_pins="1"/>
|
||||
</pb_type>
|
||||
<interconnect>
|
||||
<direct name="outpad" input="io.outpad" output="outpad.outpad">
|
||||
<delay_constant max="1.394e-11" in_port="io.outpad" out_port="outpad.outpad"/>
|
||||
</direct>
|
||||
</interconnect>
|
||||
</mode>
|
||||
<power method="ignore"/>
|
||||
</pb_type>
|
||||
<pb_type name="clb">
|
||||
<input name="I" num_pins="40" equivalent="full"/>
|
||||
<input name="cin" num_pins="1"/>
|
||||
<output name="O" num_pins="20" equivalent="none"/>
|
||||
<output name="cout" num_pins="1"/>
|
||||
<clock name="clk" num_pins="1"/>
|
||||
<pb_type name="fle" num_pb="10">
|
||||
<input name="in" num_pins="6"/>
|
||||
<input name="cin" num_pins="1"/>
|
||||
<output name="out" num_pins="2"/>
|
||||
<output name="cout" num_pins="1"/>
|
||||
<clock name="clk" num_pins="1"/>
|
||||
<mode name="n1_lut6">
|
||||
<pb_type name="ble6" num_pb="1">
|
||||
<input name="in" num_pins="6"/>
|
||||
<output name="out" num_pins="1"/>
|
||||
<clock name="clk" num_pins="1"/>
|
||||
<pb_type name="lut6" blif_model=".names" num_pb="1" class="lut">
|
||||
<input name="in" num_pins="6" port_class="lut_in"/>
|
||||
<output name="out" num_pins="1" port_class="lut_out"/>
|
||||
<delay_matrix type="max" in_port="lut6.in" out_port="lut6.out">
|
||||
261e-12
|
||||
261e-12
|
||||
261e-12
|
||||
261e-12
|
||||
261e-12
|
||||
261e-12
|
||||
</delay_matrix>
|
||||
</pb_type>
|
||||
<pb_type name="ff" blif_model=".latch" num_pb="1" class="flipflop">
|
||||
<input name="D" num_pins="1" port_class="D"/>
|
||||
<output name="Q" num_pins="1" port_class="Q"/>
|
||||
<clock name="clk" num_pins="1" port_class="clock"/>
|
||||
<T_setup value="66e-12" port="ff.D" clock="clk"/>
|
||||
<T_clock_to_Q max="124e-12" port="ff.Q" clock="clk"/>
|
||||
</pb_type>
|
||||
<interconnect>
|
||||
<direct name="direct1" input="ble6.in" output="lut6[0:0].in"/>
|
||||
<direct name="direct2" input="lut6.out" output="ff.D">
|
||||
<pack_pattern name="ble6" in_port="lut6.out" out_port="ff.D"/>
|
||||
</direct>
|
||||
<direct name="direct3" input="ble6.clk" output="ff.clk"/>
|
||||
<mux name="mux1" input="ff.Q lut6.out" output="ble6.out">
|
||||
<delay_constant max="25e-12" in_port="lut6.out" out_port="ble6.out"/>
|
||||
<delay_constant max="45e-12" in_port="ff.Q" out_port="ble6.out"/>
|
||||
</mux>
|
||||
</interconnect>
|
||||
</pb_type>
|
||||
<interconnect>
|
||||
<direct name="direct1" input="fle.in[5:0]" output="ble6.in"/>
|
||||
<direct name="direct2" input="ble6.out" output="fle.out[0:0]"/>
|
||||
<direct name="direct3" input="fle.clk" output="ble6.clk"/>
|
||||
</interconnect>
|
||||
</mode>
|
||||
<!-- n1_lut6 -->
|
||||
</pb_type>
|
||||
<interconnect>
|
||||
<complete name="crossbar" input="clb.I fle[9:0].out" output="fle[9:0].in">
|
||||
<delay_constant max="95e-12" in_port="clb.I" out_port="fle[9:0].in"/>
|
||||
<delay_constant max="75e-12" in_port="fle[9:0].out" out_port="fle[9:0].in"/>
|
||||
</complete>
|
||||
<complete name="clks" input="clb.clk" output="fle[9:0].clk">
|
||||
</complete>
|
||||
<direct name="clbouts1" input="fle[9:0].out[0:0]" output="clb.O[9:0]"/>
|
||||
<direct name="clbouts2" input="fle[9:0].out[1:1]" output="clb.O[19:10]"/>
|
||||
</interconnect>
|
||||
</pb_type>
|
||||
</complexblocklist>
|
||||
</architecture>
|
||||
|
|
@ -0,0 +1,245 @@
|
|||
<?xml version="1.0" ?>
|
||||
<architecture>
|
||||
<models>
|
||||
<model name="io">
|
||||
<input_ports>
|
||||
<port name="outpad"/>
|
||||
</input_ports>
|
||||
<output_ports>
|
||||
<port name="inpad"/>
|
||||
</output_ports>
|
||||
</model>
|
||||
</models>
|
||||
<tiles>
|
||||
<tile name="io" area="0">
|
||||
<sub_tile name="io" capacity="8">
|
||||
<equivalent_sites>
|
||||
<site pb_type="io"/>
|
||||
</equivalent_sites>
|
||||
<input name="outpad" num_pins="1"/>
|
||||
<output name="inpad" num_pins="1"/>
|
||||
<fc in_type="frac" in_val="0.15" out_type="frac" out_val="0.10"/>
|
||||
<pinlocations pattern="custom">
|
||||
<loc side="left">io.outpad io.inpad</loc>
|
||||
<loc side="top">io.outpad io.inpad</loc>
|
||||
<loc side="right">io.outpad io.inpad</loc>
|
||||
<loc side="bottom">io.outpad io.inpad</loc>
|
||||
</pinlocations>
|
||||
</sub_tile>
|
||||
</tile>
|
||||
<tile name="clb" area="53894">
|
||||
<sub_tile name="clb">
|
||||
<equivalent_sites>
|
||||
<site pb_type="clb"/>
|
||||
</equivalent_sites>
|
||||
<input name="I" num_pins="40" equivalent="full"/>
|
||||
<input name="cin" num_pins="1"/>
|
||||
<output name="O" num_pins="20" equivalent="none"/>
|
||||
<output name="cout" num_pins="1"/>
|
||||
<clock name="clk" num_pins="1"/>
|
||||
<fc in_type="frac" in_val="0.15" out_type="frac" out_val="0.10">
|
||||
<fc_override port_name="cin" fc_type="frac" fc_val="0"/>
|
||||
<fc_override port_name="cout" fc_type="frac" fc_val="0" />
|
||||
</fc>
|
||||
<pinlocations pattern="custom">
|
||||
<loc side="left">clb.clk</loc>
|
||||
<loc side="top">clb.cin</loc>
|
||||
<loc side="right">clb.O[9:0] clb.I[19:0]</loc>
|
||||
<loc side="bottom">clb.cout clb.O[19:10] clb.I[39:20]</loc>
|
||||
</pinlocations>
|
||||
</sub_tile>
|
||||
</tile>
|
||||
</tiles>
|
||||
<!-- ODIN II specific config ends -->
|
||||
<!-- Physical descriptions begin -->
|
||||
<layout tileable="true" through_channel="false">
|
||||
<auto_layout aspect_ratio="1.0">
|
||||
<perimeter type="io" priority="100"/>
|
||||
<corners type="EMPTY" priority="101"/>
|
||||
<fill type="clb" priority="10"/>
|
||||
<col type="EMPTY" startx="2" repeatx="8" starty="1" priority="19"/>
|
||||
</auto_layout>
|
||||
<fixed_layout name="3x2" width="5" height="4">
|
||||
<perimeter type="io" priority="100"/>
|
||||
<corners type="EMPTY" priority="101"/>
|
||||
<fill type="clb" priority="10"/>
|
||||
<col type="EMPTY" startx="2" repeatx="8" starty="1" priority="19"/>
|
||||
</fixed_layout>
|
||||
</layout>
|
||||
<device>
|
||||
<sizing R_minW_nmos="8926" R_minW_pmos="16067"/>
|
||||
<area grid_logic_tile_area="0"/>
|
||||
<chan_width_distr>
|
||||
<x distr="uniform" peak="1.000000"/>
|
||||
<y distr="uniform" peak="1.000000"/>
|
||||
</chan_width_distr>
|
||||
<switch_block type="wilton" fs="3"/>
|
||||
<connection_block input_switch_name="ipin_cblock"/>
|
||||
</device>
|
||||
<switchlist>
|
||||
<switch type="mux" name="0" R="551" Cin=".77e-15" Cout="4e-15" Tdel="58e-12" mux_trans_size="2.630740" buf_size="27.645901"/>
|
||||
<switch type="mux" name="ipin_cblock" R="2231.5" Cout="0." Cin="1.47e-15" Tdel="7.247000e-11" mux_trans_size="1.222260" buf_size="auto"/>
|
||||
</switchlist>
|
||||
<segmentlist>
|
||||
<segment name="L4" freq="1.000000" length="4" type="unidir" Rmetal="101" Cmetal="22.5e-15">
|
||||
<mux name="0"/>
|
||||
<sb type="pattern">1 1 1 1 1</sb>
|
||||
<cb type="pattern">1 1 1 1</cb>
|
||||
</segment>
|
||||
</segmentlist>
|
||||
<complexblocklist>
|
||||
<pb_type name="io">
|
||||
<input name="outpad" num_pins="1"/>
|
||||
<output name="inpad" num_pins="1"/>
|
||||
<mode name="physical" disable_packing="true">
|
||||
<pb_type name="iopad" blif_model=".subckt io" num_pb="1">
|
||||
<input name="outpad" num_pins="1"/>
|
||||
<output name="inpad" num_pins="1"/>
|
||||
</pb_type>
|
||||
<interconnect>
|
||||
<direct name="outpad" input="io.outpad" output="iopad.outpad">
|
||||
<delay_constant max="1.394e-11" in_port="io.outpad" out_port="iopad.outpad"/>
|
||||
</direct>
|
||||
<direct name="inpad" input="iopad.inpad" output="io.inpad">
|
||||
<delay_constant max="4.243e-11" in_port="iopad.inpad" out_port="io.inpad"/>
|
||||
</direct>
|
||||
</interconnect>
|
||||
</mode>
|
||||
<mode name="inpad">
|
||||
<pb_type name="inpad" blif_model=".input" num_pb="1">
|
||||
<output name="inpad" num_pins="1"/>
|
||||
</pb_type>
|
||||
<interconnect>
|
||||
<direct name="inpad" input="inpad.inpad" output="io.inpad">
|
||||
<delay_constant max="4.243e-11" in_port="inpad.inpad" out_port="io.inpad"/>
|
||||
</direct>
|
||||
</interconnect>
|
||||
</mode>
|
||||
<mode name="outpad">
|
||||
<pb_type name="outpad" blif_model=".output" num_pb="1">
|
||||
<input name="outpad" num_pins="1"/>
|
||||
</pb_type>
|
||||
<interconnect>
|
||||
<direct name="outpad" input="io.outpad" output="outpad.outpad">
|
||||
<delay_constant max="1.394e-11" in_port="io.outpad" out_port="outpad.outpad"/>
|
||||
</direct>
|
||||
</interconnect>
|
||||
</mode>
|
||||
<power method="ignore"/>
|
||||
</pb_type>
|
||||
<pb_type name="clb">
|
||||
<input name="I" num_pins="40" equivalent="full"/>
|
||||
<input name="cin" num_pins="1"/>
|
||||
<output name="O" num_pins="20" equivalent="none"/>
|
||||
<output name="cout" num_pins="1"/>
|
||||
<clock name="clk" num_pins="1"/>
|
||||
<pb_type name="fle" num_pb="10">
|
||||
<input name="in" num_pins="6"/>
|
||||
<input name="cin" num_pins="1"/>
|
||||
<output name="out" num_pins="2"/>
|
||||
<output name="cout" num_pins="1"/>
|
||||
<clock name="clk" num_pins="1"/>
|
||||
<!-- start n1_lut6 -->
|
||||
<mode name="n1_lut6">
|
||||
<pb_type name="ble6" num_pb="1">
|
||||
<input name="in" num_pins="6"/>
|
||||
<output name="out" num_pins="1"/>
|
||||
<clock name="clk" num_pins="1"/>
|
||||
<pb_type name="lut6" blif_model=".names" num_pb="1" class="lut">
|
||||
<input name="in" num_pins="6" port_class="lut_in"/>
|
||||
<output name="out" num_pins="1" port_class="lut_out"/>
|
||||
<delay_matrix type="max" in_port="lut6.in" out_port="lut6.out">
|
||||
261e-12
|
||||
261e-12
|
||||
261e-12
|
||||
261e-12
|
||||
261e-12
|
||||
261e-12
|
||||
</delay_matrix>
|
||||
</pb_type>
|
||||
<pb_type name="ff" blif_model=".latch" num_pb="1" class="flipflop">
|
||||
<input name="D" num_pins="1" port_class="D"/>
|
||||
<output name="Q" num_pins="1" port_class="Q"/>
|
||||
<clock name="clk" num_pins="1" port_class="clock"/>
|
||||
<T_setup value="66e-12" port="ff.D" clock="clk"/>
|
||||
<T_clock_to_Q max="124e-12" port="ff.Q" clock="clk"/>
|
||||
</pb_type>
|
||||
<interconnect>
|
||||
<direct name="direct1" input="ble6.in" output="lut6[0:0].in"/>
|
||||
<direct name="direct2" input="lut6.out" output="ff.D">
|
||||
<pack_pattern name="ble6" in_port="lut6.out" out_port="ff.D"/>
|
||||
</direct>
|
||||
<direct name="direct3" input="ble6.clk" output="ff.clk"/>
|
||||
<mux name="mux1" input="ff.Q lut6.out" output="ble6.out">
|
||||
<delay_constant max="25e-12" in_port="lut6.out" out_port="ble6.out"/>
|
||||
<delay_constant max="45e-12" in_port="ff.Q" out_port="ble6.out"/>
|
||||
</mux>
|
||||
</interconnect>
|
||||
</pb_type>
|
||||
<interconnect>
|
||||
<direct name="direct1" input="fle.in" output="ble6.in"/>
|
||||
<direct name="direct2" input="ble6.out" output="fle.out[0:0]"/>
|
||||
<direct name="direct3" input="fle.clk" output="ble6.clk"/>
|
||||
</interconnect>
|
||||
</mode>
|
||||
<!-- end n1_lut6 -->
|
||||
<!-- start n2_lut5 -->
|
||||
<mode name="n2_lut5">
|
||||
<pb_type name="ble5" num_pb="2">
|
||||
<input name="in" num_pins="5"/>
|
||||
<output name="out" num_pins="1"/>
|
||||
<clock name="clk" num_pins="1"/>
|
||||
<pb_type name="lut5" blif_model=".names" num_pb="1" class="lut">
|
||||
<input name="in" num_pins="5" port_class="lut_in"/>
|
||||
<output name="out" num_pins="1" port_class="lut_out"/>
|
||||
<delay_matrix type="max" in_port="lut5.in" out_port="lut5.out">
|
||||
261e-12
|
||||
261e-12
|
||||
261e-12
|
||||
261e-12
|
||||
261e-12
|
||||
</delay_matrix>
|
||||
</pb_type>
|
||||
<pb_type name="ff" blif_model=".latch" num_pb="1" class="flipflop">
|
||||
<input name="D" num_pins="1" port_class="D"/>
|
||||
<output name="Q" num_pins="1" port_class="Q"/>
|
||||
<clock name="clk" num_pins="1" port_class="clock"/>
|
||||
<T_setup value="66e-12" port="ff.D" clock="clk"/>
|
||||
<T_clock_to_Q max="124e-12" port="ff.Q" clock="clk"/>
|
||||
</pb_type>
|
||||
<interconnect>
|
||||
<direct name="direct1" input="ble5.in" output="lut5[0:0].in"/>
|
||||
<direct name="direct2" input="lut5.out" output="ff.D">
|
||||
<pack_pattern name="ble5" in_port="lut5.out" out_port="ff.D"/>
|
||||
</direct>
|
||||
<direct name="direct3" input="ble5.clk" output="ff.clk"/>
|
||||
<mux name="mux1" input="ff.Q lut5.out" output="ble5.out">
|
||||
<delay_constant max="25e-12" in_port="lut5.out" out_port="ble5.out"/>
|
||||
<delay_constant max="45e-12" in_port="ff.Q" out_port="ble5.out"/>
|
||||
</mux>
|
||||
</interconnect>
|
||||
</pb_type>
|
||||
<interconnect>
|
||||
<direct name="direct1" input="fle.in[4:0]" output="ble5[0:0].in"/>
|
||||
<direct name="direct2" input="fle.in[4:0]" output="ble5[1:1].in"/>
|
||||
<direct name="direct3" input="ble5[0:0].out" output="fle.out[0:0]"/>
|
||||
<direct name="direct4" input="ble5[1:1].out" output="fle.out[1:1]"/>
|
||||
<direct name="direct5" input="fle.clk" output="ble5[0:0].clk"/>
|
||||
<direct name="direct6" input="fle.clk" output="ble5[1:1].clk"/>
|
||||
</interconnect>
|
||||
</mode>
|
||||
<!-- end n2_lut5 -->
|
||||
</pb_type>
|
||||
<interconnect>
|
||||
<complete name="crossbar" input="clb.I fle[9:0].out" output="fle[9:0].in">
|
||||
<delay_constant max="95e-12" in_port="clb.I" out_port="fle[9:0].in"/>
|
||||
<delay_constant max="75e-12" in_port="fle[9:0].out" out_port="fle[9:0].in"/>
|
||||
</complete>
|
||||
<complete name="clks" input="clb.clk" output="fle[9:0].clk">
|
||||
</complete>
|
||||
<direct name="clbouts1" input="fle[9:0].out[0:0]" output="clb.O[9:0]"/>
|
||||
<direct name="clbouts2" input="fle[9:0].out[1:1]" output="clb.O[19:10]"/>
|
||||
</interconnect>
|
||||
</pb_type>
|
||||
</complexblocklist>
|
||||
</architecture>
|
||||
|
|
@ -0,0 +1,7 @@
|
|||
# Execute VPR for architecture exploration
|
||||
|
||||
vpr ${VPR_ARCH_FILE} ${VPR_TESTBENCH_BLIF} \
|
||||
--route_chan_width ${VPR_ROUTE_CHAN_WIDTH} \
|
||||
--constant_net_method route
|
||||
|
||||
exit
|
||||
|
|
@ -1,287 +0,0 @@
|
|||
<?xml version="1.0" ?><!--
|
||||
Architecture with no fracturable LUTs
|
||||
|
||||
- 40 nm technology
|
||||
- General purpose logic block:
|
||||
K = 6, N = 10
|
||||
- Routing architecture: L = 4, fc_in = 0.15, Fc_out = 0.1
|
||||
|
||||
Details on Modelling:
|
||||
|
||||
Based on flagship k6_frac_N10_mem32K_40nm.xml architecture. This architecture has no fracturable LUTs nor any heterogeneous blocks.
|
||||
|
||||
|
||||
Authors: Jason Luu, Jeff Goeders, Vaughn Betz
|
||||
--><architecture>
|
||||
<models>
|
||||
<!-- A virtual model for I/O to be used in the physical mode of io block -->
|
||||
<model name="io">
|
||||
<input_ports>
|
||||
<port name="outpad"/>
|
||||
</input_ports>
|
||||
<output_ports>
|
||||
<port name="inpad"/>
|
||||
</output_ports>
|
||||
</model>
|
||||
</models>
|
||||
<tiles>
|
||||
<tile name="io" area="0"> <sub_tile name="io" capacity="8">
|
||||
<equivalent_sites>
|
||||
<site pb_type="io"/>
|
||||
</equivalent_sites>
|
||||
<input name="outpad" num_pins="1"/>
|
||||
<output name="inpad" num_pins="1"/>
|
||||
<fc in_type="frac" in_val="0.15" out_type="frac" out_val="0.10"/>
|
||||
<pinlocations pattern="custom">
|
||||
<loc side="left">io.outpad io.inpad</loc>
|
||||
<loc side="top">io.outpad io.inpad</loc>
|
||||
<loc side="right">io.outpad io.inpad</loc>
|
||||
<loc side="bottom">io.outpad io.inpad</loc>
|
||||
</pinlocations>
|
||||
</sub_tile> </tile>
|
||||
<tile name="clb" area="53894"> <sub_tile name="clb">
|
||||
<equivalent_sites>
|
||||
<site pb_type="clb"/>
|
||||
</equivalent_sites>
|
||||
<input name="I" num_pins="40" equivalent="full"/>
|
||||
<output name="O" num_pins="10" equivalent="none"/>
|
||||
<clock name="clk" num_pins="1"/>
|
||||
<fc in_type="frac" in_val="0.15" out_type="frac" out_val="0.10"/>
|
||||
<pinlocations pattern="spread"/>
|
||||
</sub_tile> </tile>
|
||||
</tiles>
|
||||
<!-- ODIN II specific config ends -->
|
||||
<!-- Physical descriptions begin -->
|
||||
<layout tileable="true">
|
||||
<auto_layout aspect_ratio="1.0">
|
||||
<!--Perimeter of 'io' blocks with 'EMPTY' blocks at corners-->
|
||||
<perimeter type="io" priority="100"/>
|
||||
<corners type="EMPTY" priority="101"/>
|
||||
<!--Fill with 'clb'-->
|
||||
<fill type="clb" priority="10"/>
|
||||
</auto_layout>
|
||||
</layout>
|
||||
<device>
|
||||
<!-- VB & JL: Using Ian Kuon's transistor sizing and drive strength data for routing, at 40 nm. Ian used BPTM
|
||||
models. We are modifying the delay values however, to include metal C and R, which allows more architecture
|
||||
experimentation. We are also modifying the relative resistance of PMOS to be 1.8x that of NMOS
|
||||
(vs. Ian's 3x) as 1.8x lines up with Jeff G's data from a 45 nm process (and is more typical of
|
||||
45 nm in general). I'm upping the Rmin_nmos from Ian's just over 6k to nearly 9k, and dropping
|
||||
RminW_pmos from 18k to 16k to hit this 1.8x ratio, while keeping the delays of buffers approximately
|
||||
lined up with Stratix IV.
|
||||
We are using Jeff G.'s capacitance data for 45 nm (in tech/ptm_45nm).
|
||||
Jeff's tables list C in for transistors with widths in multiples of the minimum feature size (45 nm).
|
||||
The minimum contactable transistor is 2.5 * 45 nm, so I need to multiply drive strength sizes in this file
|
||||
by 2.5x when looking up in Jeff's tables.
|
||||
The delay values are lined up with Stratix IV, which has an architecture similar to this
|
||||
proposed FPGA, and which is also 40 nm
|
||||
C_ipin_cblock: input capacitance of a track buffer, which VPR assumes is a single-stage
|
||||
4x minimum drive strength buffer. -->
|
||||
<sizing R_minW_nmos="8926" R_minW_pmos="16067"/>
|
||||
<!-- The grid_logic_tile_area below will be used for all blocks that do not explicitly set their own (non-routing)
|
||||
area; set to 0 since we explicitly set the area of all blocks currently in this architecture file.
|
||||
-->
|
||||
<area grid_logic_tile_area="0"/>
|
||||
<chan_width_distr>
|
||||
<x distr="uniform" peak="1.000000"/>
|
||||
<y distr="uniform" peak="1.000000"/>
|
||||
</chan_width_distr>
|
||||
<switch_block type="wilton" fs="3"/>
|
||||
<connection_block input_switch_name="ipin_cblock"/>
|
||||
</device>
|
||||
<switchlist>
|
||||
<!-- VB: the mux_trans_size and buf_size data below is in minimum width transistor *areas*, assuming the purple
|
||||
book area formula. This means the mux transistors are about 5x minimum drive strength.
|
||||
We assume the first stage of the buffer is 3x min drive strength to be reasonable given the large
|
||||
mux transistors, and this gives a reasonable stage ratio of a bit over 5x to the second stage. We assume
|
||||
the n and p transistors in the first stage are equal-sized to lower the buffer trip point, since it's fed
|
||||
by a pass transistor mux. We can then reverse engineer the buffer second stage to hit the specified
|
||||
buf_size (really buffer area) - 16.2x minimum drive nmos and 1.8*16.2 = 29.2x minimum drive.
|
||||
I then took the data from Jeff G.'s PTM modeling of 45 nm to get the Cin (gate of first stage) and Cout
|
||||
(diff of second stage) listed below. Jeff's models are in tech/ptm_45nm, and are in min feature multiples.
|
||||
The minimum contactable transistor is 2.5 * 45 nm, so I need to multiply the drive strength sizes above by
|
||||
2.5x when looking up in Jeff's tables.
|
||||
Finally, we choose a switch delay (58 ps) that leads to length 4 wires having a delay equal to that of SIV of 126 ps.
|
||||
This also leads to the switch being 46% of the total wire delay, which is reasonable. -->
|
||||
<switch type="mux" name="0" R="551" Cin=".77e-15" Cout="4e-15" Tdel="58e-12" mux_trans_size="2.630740" buf_size="27.645901"/>
|
||||
<!--switch ipin_cblock resistance set to yeild for 4x minimum drive strength buffer-->
|
||||
<switch type="mux" name="ipin_cblock" R="2231.5" Cout="0." Cin="1.47e-15" Tdel="7.247000e-11" mux_trans_size="1.222260" buf_size="auto"/>
|
||||
</switchlist>
|
||||
<segmentlist>
|
||||
<!--- VB & JL: using ITRS metal stack data, 96 nm half pitch wires, which are intermediate metal width/space.
|
||||
With the 96 nm half pitch, such wires would take 60 um of height, vs. a 90 nm high (approximated as square) Stratix IV tile so this seems
|
||||
reasonable. Using a tile length of 90 nm, corresponding to the length of a Stratix IV tile if it were square. -->
|
||||
<segment name="L4" freq="1.000000" length="4" type="unidir" Rmetal="101" Cmetal="22.5e-15">
|
||||
<mux name="0"/>
|
||||
<sb type="pattern">1 1 1 1 1</sb>
|
||||
<cb type="pattern">1 1 1 1</cb>
|
||||
</segment>
|
||||
</segmentlist>
|
||||
<complexblocklist>
|
||||
<!-- Define I/O pads begin -->
|
||||
<!-- Capacity is a unique property of I/Os, it is the maximum number of I/Os that can be placed at the same (X,Y) location on the FPGA -->
|
||||
<!-- Not sure of the area of an I/O (varies widely), and it's not relevant to the design of the FPGA core, so we're setting it to 0. -->
|
||||
<pb_type name="io">
|
||||
<input name="outpad" num_pins="1"/>
|
||||
<output name="inpad" num_pins="1"/>
|
||||
<!-- A mode denotes the physical implementation of an I/O
|
||||
This mode will be not packable but is mainly used for fabric verilog generation
|
||||
-->
|
||||
<mode name="physical" disable_packing="true">
|
||||
<pb_type name="iopad" blif_model=".subckt io" num_pb="1">
|
||||
<input name="outpad" num_pins="1"/>
|
||||
<output name="inpad" num_pins="1"/>
|
||||
</pb_type>
|
||||
<interconnect>
|
||||
<direct name="outpad" input="io.outpad" output="iopad.outpad">
|
||||
<delay_constant max="1.394e-11" in_port="io.outpad" out_port="iopad.outpad"/>
|
||||
</direct>
|
||||
<direct name="inpad" input="iopad.inpad" output="io.inpad">
|
||||
<delay_constant max="4.243e-11" in_port="iopad.inpad" out_port="io.inpad"/>
|
||||
</direct>
|
||||
</interconnect>
|
||||
</mode>
|
||||
<!-- IOs can operate as either inputs or outputs.
|
||||
Delays below come from Ian Kuon. They are small, so they should be interpreted as
|
||||
the delays to and from registers in the I/O (and generally I/Os are registered
|
||||
today and that is when you timing analyze them.
|
||||
-->
|
||||
<mode name="inpad">
|
||||
<pb_type name="inpad" blif_model=".input" num_pb="1">
|
||||
<output name="inpad" num_pins="1"/>
|
||||
</pb_type>
|
||||
<interconnect>
|
||||
<direct name="inpad" input="inpad.inpad" output="io.inpad">
|
||||
<delay_constant max="4.243e-11" in_port="inpad.inpad" out_port="io.inpad"/>
|
||||
</direct>
|
||||
</interconnect>
|
||||
</mode>
|
||||
<mode name="outpad">
|
||||
<pb_type name="outpad" blif_model=".output" num_pb="1">
|
||||
<input name="outpad" num_pins="1"/>
|
||||
</pb_type>
|
||||
<interconnect>
|
||||
<direct name="outpad" input="io.outpad" output="outpad.outpad">
|
||||
<delay_constant max="1.394e-11" in_port="io.outpad" out_port="outpad.outpad"/>
|
||||
</direct>
|
||||
</interconnect>
|
||||
</mode>
|
||||
<!-- Every input pin is driven by 15% of the tracks in a channel, every output pin is driven by 10% of the tracks in a channel -->
|
||||
<!-- IOs go on the periphery of the FPGA, for consistency,
|
||||
make it physically equivalent on all sides so that only one definition of I/Os is needed.
|
||||
If I do not make a physically equivalent definition, then I need to define 4 different I/Os, one for each side of the FPGA
|
||||
-->
|
||||
<!-- Place I/Os on the sides of the FPGA -->
|
||||
<power method="ignore"/>
|
||||
</pb_type>
|
||||
<!-- Define I/O pads ends -->
|
||||
<!-- Define general purpose logic block (CLB) begin -->
|
||||
<!--- Area calculation: Total Stratix IV tile area is about 8100 um^2, and a minimum width transistor
|
||||
area is 60 L^2 yields a tile area of 84375 MWTAs.
|
||||
Routing at W=300 is 30481 MWTAs, leaving us with a total of 53000 MWTAs for logic block area
|
||||
This means that only 37% of our area is in the general routing, and 63% is inside the logic
|
||||
block. Note that the crossbar / local interconnect is considered part of the logic block
|
||||
area in this analysis. That is a lower proportion of of routing area than most academics
|
||||
assume, but note that the total routing area really includes the crossbar, which would push
|
||||
routing area up significantly, we estimate into the ~70% range.
|
||||
-->
|
||||
<pb_type name="clb">
|
||||
<input name="I" num_pins="40" equivalent="full"/>
|
||||
<output name="O" num_pins="10" equivalent="none"/>
|
||||
<clock name="clk" num_pins="1"/>
|
||||
<!-- Describe basic logic element.
|
||||
Each basic logic element has a 6-LUT that can be optionally registered
|
||||
-->
|
||||
<pb_type name="fle" num_pb="10">
|
||||
<input name="in" num_pins="6"/>
|
||||
<output name="out" num_pins="1"/>
|
||||
<clock name="clk" num_pins="1"/>
|
||||
<!-- 6-LUT mode definition begin -->
|
||||
<mode name="n1_lut6">
|
||||
<!-- Define 6-LUT mode -->
|
||||
<pb_type name="ble6" num_pb="1">
|
||||
<input name="in" num_pins="6"/>
|
||||
<output name="out" num_pins="1"/>
|
||||
<clock name="clk" num_pins="1"/>
|
||||
<!-- Define LUT -->
|
||||
<pb_type name="lut6" blif_model=".names" num_pb="1" class="lut">
|
||||
<input name="in" num_pins="6" port_class="lut_in"/>
|
||||
<output name="out" num_pins="1" port_class="lut_out"/>
|
||||
<!-- LUT timing using delay matrix -->
|
||||
<!-- These are the physical delay inputs on a Stratix IV LUT but because VPR cannot do LUT rebalancing,
|
||||
we instead take the average of these numbers to get more stable results
|
||||
82e-12
|
||||
173e-12
|
||||
261e-12
|
||||
263e-12
|
||||
398e-12
|
||||
397e-12
|
||||
-->
|
||||
<delay_matrix type="max" in_port="lut6.in" out_port="lut6.out">
|
||||
261e-12
|
||||
261e-12
|
||||
261e-12
|
||||
261e-12
|
||||
261e-12
|
||||
261e-12
|
||||
</delay_matrix>
|
||||
</pb_type>
|
||||
<!-- Define flip-flop -->
|
||||
<pb_type name="ff" blif_model=".latch" num_pb="1" class="flipflop">
|
||||
<input name="D" num_pins="1" port_class="D"/>
|
||||
<output name="Q" num_pins="1" port_class="Q"/>
|
||||
<clock name="clk" num_pins="1" port_class="clock"/>
|
||||
<T_setup value="66e-12" port="ff.D" clock="clk"/>
|
||||
<T_clock_to_Q max="124e-12" port="ff.Q" clock="clk"/>
|
||||
</pb_type>
|
||||
<interconnect>
|
||||
<direct name="direct1" input="ble6.in" output="lut6[0:0].in"/>
|
||||
<direct name="direct2" input="lut6.out" output="ff.D">
|
||||
<!-- Advanced user option that tells CAD tool to find LUT+FF pairs in netlist -->
|
||||
<pack_pattern name="ble6" in_port="lut6.out" out_port="ff.D"/>
|
||||
</direct>
|
||||
<direct name="direct3" input="ble6.clk" output="ff.clk"/>
|
||||
<mux name="mux1" input="ff.Q lut6.out" output="ble6.out">
|
||||
<!-- LUT to output is faster than FF to output on a Stratix IV -->
|
||||
<delay_constant max="25e-12" in_port="lut6.out" out_port="ble6.out"/>
|
||||
<delay_constant max="45e-12" in_port="ff.Q" out_port="ble6.out"/>
|
||||
</mux>
|
||||
</interconnect>
|
||||
</pb_type>
|
||||
<interconnect>
|
||||
<direct name="direct1" input="fle.in" output="ble6.in"/>
|
||||
<direct name="direct2" input="ble6.out" output="fle.out[0:0]"/>
|
||||
<direct name="direct3" input="fle.clk" output="ble6.clk"/>
|
||||
</interconnect>
|
||||
</mode>
|
||||
<!-- 6-LUT mode definition end -->
|
||||
</pb_type>
|
||||
<interconnect>
|
||||
<!-- We use a full crossbar to get logical equivalence at inputs of CLB
|
||||
The delays below come from Stratix IV. the delay through a connection block
|
||||
input mux + the crossbar in Stratix IV is 167 ps. We already have a 72 ps
|
||||
delay on the connection block input mux (modeled by Ian Kuon), so the remaining
|
||||
delay within the crossbar is 95 ps.
|
||||
The delays of cluster feedbacks in Stratix IV is 100 ps, when driven by a LUT.
|
||||
Since all our outputs LUT outputs go to a BLE output, and have a delay of
|
||||
25 ps to do so, we subtract 25 ps from the 100 ps delay of a feedback
|
||||
to get the part that should be marked on the crossbar. -->
|
||||
<complete name="crossbar" input="clb.I fle[9:0].out" output="fle[9:0].in">
|
||||
<delay_constant max="95e-12" in_port="clb.I" out_port="fle[9:0].in"/>
|
||||
<delay_constant max="75e-12" in_port="fle[9:0].out" out_port="fle[9:0].in"/>
|
||||
</complete>
|
||||
<complete name="clks" input="clb.clk" output="fle[9:0].clk">
|
||||
</complete>
|
||||
<!-- This way of specifying direct connection to clb outputs is important because this architecture uses automatic spreading of opins.
|
||||
By grouping to output pins in this fashion, if a logic block is completely filled by 6-LUTs,
|
||||
then the outputs those 6-LUTs take get evenly distributed across all four sides of the CLB instead of clumped on two sides (which is what happens with a more
|
||||
naive specification).
|
||||
-->
|
||||
<direct name="clbouts1" input="fle[9:0].out" output="clb.O"/>
|
||||
</interconnect>
|
||||
<!-- Every input pin is driven by 15% of the tracks in a channel, every output pin is driven by 10% of the tracks in a channel -->
|
||||
<!-- Place this general purpose logic block in any unspecified column -->
|
||||
</pb_type>
|
||||
<!-- Define general purpose logic block (CLB) ends -->
|
||||
</complexblocklist>
|
||||
</architecture>
|
||||
|
|
@ -1,199 +0,0 @@
|
|||
<?xml version="1.0" ?><!--
|
||||
Architecture with no fracturable LUTs
|
||||
|
||||
- 40 nm technology
|
||||
- General purpose logic block:
|
||||
K = 6, N = 10
|
||||
- Routing architecture: L = 4, fc_in = 0.15, Fc_out = 0.1
|
||||
|
||||
Details on Modelling:
|
||||
|
||||
Based on flagship k6_frac_N10_mem32K_40nm.xml architecture. This architecture has no fracturable LUTs nor any heterogeneous blocks.
|
||||
|
||||
|
||||
Authors: Jason Luu, Jeff Goeders, Vaughn Betz
|
||||
--><architecture>
|
||||
<models>
|
||||
<!-- A virtual model for I/O to be used in the physical mode of io block -->
|
||||
<model name="io">
|
||||
<input_ports>
|
||||
<port name="outpad"/>
|
||||
</input_ports>
|
||||
<output_ports>
|
||||
<port name="inpad"/>
|
||||
</output_ports>
|
||||
</model>
|
||||
</models>
|
||||
<tiles>
|
||||
<tile name="io" area="0"> <sub_tile name="io" capacity="8">
|
||||
<equivalent_sites>
|
||||
<site pb_type="io"/>
|
||||
</equivalent_sites>
|
||||
<input name="outpad" num_pins="1"/>
|
||||
<output name="inpad" num_pins="1"/>
|
||||
<fc in_type="frac" in_val="0.15" out_type="frac" out_val="0.10"/>
|
||||
<pinlocations pattern="custom">
|
||||
<loc side="left">io.outpad io.inpad</loc>
|
||||
<loc side="top">io.outpad io.inpad</loc>
|
||||
<loc side="right">io.outpad io.inpad</loc>
|
||||
<loc side="bottom">io.outpad io.inpad</loc>
|
||||
</pinlocations>
|
||||
</sub_tile> </tile>
|
||||
<tile name="clb" area="53894"> <sub_tile name="clb">
|
||||
<equivalent_sites>
|
||||
<site pb_type="clb"/>
|
||||
</equivalent_sites>
|
||||
<input name="I" num_pins="40" equivalent="full"/>
|
||||
<output name="O" num_pins="10" equivalent="none"/>
|
||||
<clock name="clk" num_pins="1"/>
|
||||
<fc in_type="frac" in_val="0.15" out_type="frac" out_val="0.10"/>
|
||||
<pinlocations pattern="spread"/>
|
||||
</sub_tile> </tile>
|
||||
</tiles>
|
||||
<!-- ODIN II specific config ends -->
|
||||
<!-- Physical descriptions begin -->
|
||||
<layout tileable="true">
|
||||
<auto_layout aspect_ratio="1.0">
|
||||
<!--Perimeter of 'io' blocks with 'EMPTY' blocks at corners-->
|
||||
<perimeter type="io" priority="100"/>
|
||||
<corners type="EMPTY" priority="101"/>
|
||||
<!--Fill with 'clb'-->
|
||||
<fill type="clb" priority="10"/>
|
||||
</auto_layout>
|
||||
</layout>
|
||||
<device>
|
||||
<sizing R_minW_nmos="8926" R_minW_pmos="16067"/>
|
||||
<area grid_logic_tile_area="0"/>
|
||||
<chan_width_distr>
|
||||
<x distr="uniform" peak="1.000000"/>
|
||||
<y distr="uniform" peak="1.000000"/>
|
||||
</chan_width_distr>
|
||||
<switch_block type="wilton" fs="3"/>
|
||||
<connection_block input_switch_name="ipin_cblock"/>
|
||||
</device>
|
||||
<switchlist>
|
||||
<switch type="mux" name="0" R="551" Cin=".77e-15" Cout="4e-15" Tdel="58e-12" mux_trans_size="2.630740" buf_size="27.645901"/>
|
||||
<switch type="mux" name="ipin_cblock" R="2231.5" Cout="0." Cin="1.47e-15" Tdel="7.247000e-11" mux_trans_size="1.222260" buf_size="auto"/>
|
||||
</switchlist>
|
||||
<segmentlist>
|
||||
<segment name="L4" freq="1.000000" length="4" type="unidir" Rmetal="101" Cmetal="22.5e-15">
|
||||
<mux name="0"/>
|
||||
<sb type="pattern">1 1 1 1 1</sb>
|
||||
<cb type="pattern">1 1 1 1</cb>
|
||||
</segment>
|
||||
</segmentlist>
|
||||
<complexblocklist>
|
||||
<pb_type name="io">
|
||||
<input name="outpad" num_pins="1"/>
|
||||
<output name="inpad" num_pins="1"/>
|
||||
<mode name="physical" disable_packing="true">
|
||||
<pb_type name="iopad" blif_model=".subckt io" num_pb="1">
|
||||
<input name="outpad" num_pins="1"/>
|
||||
<output name="inpad" num_pins="1"/>
|
||||
</pb_type>
|
||||
<interconnect>
|
||||
<direct name="outpad" input="io.outpad" output="iopad.outpad">
|
||||
<delay_constant max="1.394e-11" in_port="io.outpad" out_port="iopad.outpad"/>
|
||||
</direct>
|
||||
<direct name="inpad" input="iopad.inpad" output="io.inpad">
|
||||
<delay_constant max="4.243e-11" in_port="iopad.inpad" out_port="io.inpad"/>
|
||||
</direct>
|
||||
</interconnect>
|
||||
</mode>
|
||||
<mode name="inpad">
|
||||
<pb_type name="inpad" blif_model=".input" num_pb="1">
|
||||
<output name="inpad" num_pins="1"/>
|
||||
</pb_type>
|
||||
<interconnect>
|
||||
<direct name="inpad" input="inpad.inpad" output="io.inpad">
|
||||
<delay_constant max="4.243e-11" in_port="inpad.inpad" out_port="io.inpad"/>
|
||||
</direct>
|
||||
</interconnect>
|
||||
</mode>
|
||||
<mode name="outpad">
|
||||
<pb_type name="outpad" blif_model=".output" num_pb="1">
|
||||
<input name="outpad" num_pins="1"/>
|
||||
</pb_type>
|
||||
<interconnect>
|
||||
<direct name="outpad" input="io.outpad" output="outpad.outpad">
|
||||
<delay_constant max="1.394e-11" in_port="io.outpad" out_port="outpad.outpad"/>
|
||||
</direct>
|
||||
</interconnect>
|
||||
</mode>
|
||||
<power method="ignore"/>
|
||||
</pb_type>
|
||||
<pb_type name="clb">
|
||||
<input name="I" num_pins="40" equivalent="full"/>
|
||||
<output name="O" num_pins="10" equivalent="none"/>
|
||||
<clock name="clk" num_pins="1"/>
|
||||
<!-- Describe basic logic element.
|
||||
Each basic logic element has a 6-LUT that can be optionally registered
|
||||
-->
|
||||
<pb_type name="fle" num_pb="10">
|
||||
<input name="in" num_pins="6"/>
|
||||
<output name="out" num_pins="1"/>
|
||||
<clock name="clk" num_pins="1"/>
|
||||
<!-- 6-LUT mode definition begin -->
|
||||
<mode name="n1_lut6">
|
||||
<!-- Define 6-LUT mode -->
|
||||
<pb_type name="ble6" num_pb="1">
|
||||
<input name="in" num_pins="6"/>
|
||||
<output name="out" num_pins="1"/>
|
||||
<clock name="clk" num_pins="1"/>
|
||||
<!-- Define LUT -->
|
||||
<pb_type name="lut6" blif_model=".names" num_pb="1" class="lut">
|
||||
<input name="in" num_pins="6" port_class="lut_in"/>
|
||||
<output name="out" num_pins="1" port_class="lut_out"/>
|
||||
<delay_matrix type="max" in_port="lut6.in" out_port="lut6.out">
|
||||
261e-12
|
||||
261e-12
|
||||
261e-12
|
||||
261e-12
|
||||
261e-12
|
||||
261e-12
|
||||
</delay_matrix>
|
||||
</pb_type>
|
||||
<!-- Define flip-flop -->
|
||||
<pb_type name="ff" blif_model=".latch" num_pb="1" class="flipflop">
|
||||
<input name="D" num_pins="1" port_class="D"/>
|
||||
<output name="Q" num_pins="1" port_class="Q"/>
|
||||
<clock name="clk" num_pins="1" port_class="clock"/>
|
||||
<T_setup value="66e-12" port="ff.D" clock="clk"/>
|
||||
<T_clock_to_Q max="124e-12" port="ff.Q" clock="clk"/>
|
||||
</pb_type>
|
||||
<interconnect>
|
||||
<direct name="direct1" input="ble6.in" output="lut6[0:0].in"/>
|
||||
<direct name="direct2" input="lut6.out" output="ff.D">
|
||||
<!-- Advanced user option that tells CAD tool to find LUT+FF pairs in netlist -->
|
||||
<pack_pattern name="ble6" in_port="lut6.out" out_port="ff.D"/>
|
||||
</direct>
|
||||
<direct name="direct3" input="ble6.clk" output="ff.clk"/>
|
||||
<mux name="mux1" input="ff.Q lut6.out" output="ble6.out">
|
||||
<!-- LUT to output is faster than FF to output on a Stratix IV -->
|
||||
<delay_constant max="25e-12" in_port="lut6.out" out_port="ble6.out"/>
|
||||
<delay_constant max="45e-12" in_port="ff.Q" out_port="ble6.out"/>
|
||||
</mux>
|
||||
</interconnect>
|
||||
</pb_type>
|
||||
<interconnect>
|
||||
<direct name="direct1" input="fle.in" output="ble6.in"/>
|
||||
<direct name="direct2" input="ble6.out" output="fle.out[0:0]"/>
|
||||
<direct name="direct3" input="fle.clk" output="ble6.clk"/>
|
||||
</interconnect>
|
||||
</mode>
|
||||
<!-- 6-LUT mode definition end -->
|
||||
</pb_type>
|
||||
<interconnect>
|
||||
<complete name="crossbar" input="clb.I fle[9:0].out" output="fle[9:0].in">
|
||||
<delay_constant max="95e-12" in_port="clb.I" out_port="fle[9:0].in"/>
|
||||
<delay_constant max="75e-12" in_port="fle[9:0].out" out_port="fle[9:0].in"/>
|
||||
</complete>
|
||||
<complete name="clks" input="clb.clk" output="fle[9:0].clk">
|
||||
</complete>
|
||||
<direct name="clbouts1" input="fle[9:0].out" output="clb.O"/>
|
||||
</interconnect>
|
||||
<!-- Every input pin is driven by 15% of the tracks in a channel, every output pin is driven by 10% of the tracks in a channel -->
|
||||
<!-- Place this general purpose logic block in any unspecified column -->
|
||||
</pb_type>
|
||||
</complexblocklist>
|
||||
</architecture>
|
||||
Loading…
Reference in New Issue