Link path correction

This commit is contained in:
AurelienUoU 2019-07-16 13:13:58 -06:00
parent fe218fc207
commit 509c1d2c80
2 changed files with 2 additions and 2 deletions

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@ -18,7 +18,7 @@ dir_keyword="GENERATED_DIR_KEYWORD"
rm -rf ${pwd_path}/results_OpenPithon rm -rf ${pwd_path}/results_OpenPithon
cd ${pwd_path}/arch cd ${pwd_path}/arch
mkdir generated # create folder to save rewritten architecture mkdir -p generated # create folder to save rewritten architecture
cd ${pwd_path}/scripts cd ${pwd_path}/scripts
# Replace keyword in config and architecture files # Replace keyword in config and architecture files

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@ -93,4 +93,4 @@ Once dependancies are understood, we can modify the flow by changing the archite
### Explanation ### Explanation
With this last experiment we replace the [**K6 architecture**](https://github.com/LNIS-Projects/OpenFPGA/blob/master/tutorials/image/architectures_schematics/frac_lut6.pdf) with a [**K8 architecture**](https://github.com/LNIS-Projects/OpenFPGA/blob/master/tutorials/image/architectures_schematics/frac_lut8.pdf), which means a 8-inputs fracturable LUT (implemented by LUT6 and LUT4 with 2 shared inputs). This architecture provides more modes for the CLB and the crossbar changed from a half-connected to a fully connected, implying bigger multiplexor between the CLB and LUT inputs. These requirement in term of interconnection will lead to the increase in routing channel width. Indeed, if the routing channel is to low, it could be impossible to route a benchmark or the FPGA output can be delayed. With this last experiment we replace the [**K6 architecture**](https://github.com/LNIS-Projects/OpenFPGA/blob/master/tutorials/images/architectures_schematics/frac_lut6.pdf) with a [**K8 architecture**](https://github.com/LNIS-Projects/OpenFPGA/blob/master/tutorials/images/architectures_schematics/frac_lut8.pdf), which means a 8-inputs fracturable LUT (implemented by LUT6 and LUT4 with 2 shared inputs). This architecture provides more modes for the CLB and the crossbar changed from a half-connected to a fully connected, implying bigger multiplexor between the CLB and LUT inputs. These requirement in term of interconnection will lead to the increase in routing channel width. Indeed, if the routing channel is to low, it could be impossible to route a benchmark or the FPGA output can be delayed.