add frame-based memory module builder

This commit is contained in:
tangxifan 2020-05-25 22:15:16 -06:00
parent 3a26bb5eef
commit 8864920460
13 changed files with 361 additions and 11 deletions

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@ -76,8 +76,9 @@ int build_fabric(OpenfpgaContext& openfpga_ctx,
VTR_LOG("\n"); VTR_LOG("\n");
openfpga_ctx.mutable_module_graph() = build_device_module_graph(openfpga_ctx.mutable_io_location_map(), openfpga_ctx.mutable_module_graph() = build_device_module_graph(openfpga_ctx.mutable_io_location_map(),
g_vpr_ctx.device(), openfpga_ctx.mutable_decoder_lib(),
const_cast<const OpenfpgaContext&>(openfpga_ctx), const_cast<const OpenfpgaContext&>(openfpga_ctx),
g_vpr_ctx.device(),
cmd_context.option_enable(cmd, opt_compress_routing), cmd_context.option_enable(cmd, opt_compress_routing),
cmd_context.option_enable(cmd, opt_duplicate_grid_pin), cmd_context.option_enable(cmd, opt_duplicate_grid_pin),
cmd_context.option_enable(cmd, opt_verbose)); cmd_context.option_enable(cmd, opt_verbose));

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@ -10,6 +10,7 @@
#include "vpr_placement_annotation.h" #include "vpr_placement_annotation.h"
#include "vpr_routing_annotation.h" #include "vpr_routing_annotation.h"
#include "mux_library.h" #include "mux_library.h"
#include "decoder_library.h"
#include "tile_direct.h" #include "tile_direct.h"
#include "module_manager.h" #include "module_manager.h"
#include "netlist_manager.h" #include "netlist_manager.h"
@ -55,6 +56,7 @@ class OpenfpgaContext : public Context {
const openfpga::VprRoutingAnnotation& vpr_routing_annotation() const { return vpr_routing_annotation_; } const openfpga::VprRoutingAnnotation& vpr_routing_annotation() const { return vpr_routing_annotation_; }
const openfpga::DeviceRRGSB& device_rr_gsb() const { return device_rr_gsb_; } const openfpga::DeviceRRGSB& device_rr_gsb() const { return device_rr_gsb_; }
const openfpga::MuxLibrary& mux_lib() const { return mux_lib_; } const openfpga::MuxLibrary& mux_lib() const { return mux_lib_; }
const openfpga::DecoderLibrary& decoder_lib() const { return decoder_lib_; }
const openfpga::TileDirect& tile_direct() const { return tile_direct_; } const openfpga::TileDirect& tile_direct() const { return tile_direct_; }
const openfpga::ModuleManager& module_graph() const { return module_graph_; } const openfpga::ModuleManager& module_graph() const { return module_graph_; }
const openfpga::FlowManager& flow_manager() const { return flow_manager_; } const openfpga::FlowManager& flow_manager() const { return flow_manager_; }
@ -72,6 +74,7 @@ class OpenfpgaContext : public Context {
openfpga::VprRoutingAnnotation& mutable_vpr_routing_annotation() { return vpr_routing_annotation_; } openfpga::VprRoutingAnnotation& mutable_vpr_routing_annotation() { return vpr_routing_annotation_; }
openfpga::DeviceRRGSB& mutable_device_rr_gsb() { return device_rr_gsb_; } openfpga::DeviceRRGSB& mutable_device_rr_gsb() { return device_rr_gsb_; }
openfpga::MuxLibrary& mutable_mux_lib() { return mux_lib_; } openfpga::MuxLibrary& mutable_mux_lib() { return mux_lib_; }
openfpga::DecoderLibrary& mutable_decoder_lib() { return decoder_lib_; }
openfpga::TileDirect& mutable_tile_direct() { return tile_direct_; } openfpga::TileDirect& mutable_tile_direct() { return tile_direct_; }
openfpga::ModuleManager& mutable_module_graph() { return module_graph_; } openfpga::ModuleManager& mutable_module_graph() { return module_graph_; }
openfpga::FlowManager& mutable_flow_manager() { return flow_manager_; } openfpga::FlowManager& mutable_flow_manager() { return flow_manager_; }
@ -105,6 +108,9 @@ class OpenfpgaContext : public Context {
/* Library of physical implmentation of routing multiplexers */ /* Library of physical implmentation of routing multiplexers */
openfpga::MuxLibrary mux_lib_; openfpga::MuxLibrary mux_lib_;
/* Library of physical implmentation of decoders */
openfpga::DecoderLibrary decoder_lib_;
/* Inner/inter-column/row tile direct connections */ /* Inner/inter-column/row tile direct connections */
openfpga::TileDirect tile_direct_; openfpga::TileDirect tile_direct_;

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@ -142,6 +142,20 @@ std::string generate_mux_local_decoder_subckt_name(const size_t& addr_size,
return subckt_name; return subckt_name;
} }
/************************************************
* Generate the module name of a decoder
* for frame-based memories
***********************************************/
std::string generate_frame_memory_decoder_subckt_name(const size_t& addr_size,
const size_t& data_size) {
std::string subckt_name = "frame_decoder";
subckt_name += std::to_string(addr_size);
subckt_name += "to";
subckt_name += std::to_string(data_size);
return subckt_name;
}
/************************************************ /************************************************
* Generate the module name of a routing track wire * Generate the module name of a routing track wire
***********************************************/ ***********************************************/

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@ -50,6 +50,9 @@ std::string generate_mux_branch_subckt_name(const CircuitLibrary& circuit_lib,
std::string generate_mux_local_decoder_subckt_name(const size_t& addr_size, std::string generate_mux_local_decoder_subckt_name(const size_t& addr_size,
const size_t& data_size); const size_t& data_size);
std::string generate_frame_memory_decoder_subckt_name(const size_t& addr_size,
const size_t& data_size);
std::string generate_segment_wire_subckt_name(const std::string& wire_model_name, std::string generate_segment_wire_subckt_name(const std::string& wire_model_name,
const size_t& segment_id); const size_t& segment_id);

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@ -30,6 +30,12 @@ constexpr char* GRID_MUX_INSTANCE_PREFIX = "mux_";
constexpr char* SWITCH_BLOCK_MUX_INSTANCE_PREFIX = "mux_"; constexpr char* SWITCH_BLOCK_MUX_INSTANCE_PREFIX = "mux_";
constexpr char* CONNECTION_BLOCK_MUX_INSTANCE_PREFIX = "mux_"; constexpr char* CONNECTION_BLOCK_MUX_INSTANCE_PREFIX = "mux_";
/* Decoder naming constant strings */
constexpr char* DECODER_ENABLE_PORT_NAME = "enable";
constexpr char* DECODER_ADDRESS_PORT_NAME = "address";
constexpr char* DECODER_DATA_PORT_NAME = "data";
constexpr char* DECODER_DATA_INV_PORT_NAME = "data_inv";
/* Inverted port naming */ /* Inverted port naming */
constexpr char* INV_PORT_POSTFIX = "_inv"; constexpr char* INV_PORT_POSTFIX = "_inv";

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@ -9,6 +9,7 @@
#include "vtr_assert.h" #include "vtr_assert.h"
#include "vtr_time.h" #include "vtr_time.h"
#include "openfpga_reserved_words.h"
#include "openfpga_naming.h" #include "openfpga_naming.h"
#include "decoder_library_utils.h" #include "decoder_library_utils.h"
#include "module_manager_utils.h" #include "module_manager_utils.h"
@ -18,6 +19,61 @@
/* begin namespace openfpga */ /* begin namespace openfpga */
namespace openfpga { namespace openfpga {
/***************************************************************************************
* Create a module for a decoder with a given output size
*
* Data input
* | | ... |
* v v v
* +-----------+
* / \
* enable-->/ Decoder \
* +-----------------+
* | | | ... | | |
* v v v v v v
* Data Outputs
*
* The outputs are assumes to be one-hot codes (at most only one '1' exist)
* Considering this fact, there are only num_of_outputs conditions to be encoded.
* Therefore, the number of inputs is ceil(log(num_of_outputs)/log(2))
***************************************************************************************/
ModuleId build_frame_memory_decoder_module(ModuleManager& module_manager,
const DecoderLibrary& decoder_lib,
const DecoderId& decoder) {
/* Get the number of inputs */
size_t addr_size = decoder_lib.addr_size(decoder);
size_t data_size = decoder_lib.data_size(decoder);
/* Create a name for the local encoder */
std::string module_name = generate_frame_memory_decoder_subckt_name(addr_size, data_size);
/* Create a Verilog Module based on the circuit model, and add to module manager */
ModuleId module_id = module_manager.add_module(module_name);
VTR_ASSERT(true == module_manager.valid_module_id(module_id));
/* Add enable port */
BasicPort en_port(std::string(DECODER_ENABLE_PORT_NAME), 1);
module_manager.add_port(module_id, en_port, ModuleManager::MODULE_INPUT_PORT);
/* Add each input port */
BasicPort addr_port(std::string(DECODER_ADDRESS_PORT_NAME), addr_size);
module_manager.add_port(module_id, addr_port, ModuleManager::MODULE_INPUT_PORT);
/* Add each output port */
BasicPort data_port(std::string(DECODER_DATA_PORT_NAME), data_size);
module_manager.add_port(module_id, data_port, ModuleManager::MODULE_OUTPUT_PORT);
/* Data port is registered. It should be outputted as
* output reg [lsb:msb] data
*/
module_manager.set_port_is_register(module_id, data_port.get_name(), true);
/* Add data_in port */
if (true == decoder_lib.use_data_inv_port(decoder)) {
BasicPort data_inv_port(std::string(DECODER_DATA_INV_PORT_NAME), data_size);
module_manager.add_port(module_id, data_inv_port, ModuleManager::MODULE_OUTPUT_PORT);
}
return module_id;
}
/*************************************************************************************** /***************************************************************************************
* Create a module for a decoder with a given output size * Create a module for a decoder with a given output size
* *
@ -44,7 +100,7 @@ void build_mux_local_decoder_module(ModuleManager& module_manager,
size_t addr_size = decoder_lib.addr_size(decoder); size_t addr_size = decoder_lib.addr_size(decoder);
size_t data_size = decoder_lib.data_size(decoder); size_t data_size = decoder_lib.data_size(decoder);
/* TODO: create a name for the local encoder */ /* Create a name for the local encoder */
std::string module_name = generate_mux_local_decoder_subckt_name(addr_size, data_size); std::string module_name = generate_mux_local_decoder_subckt_name(addr_size, data_size);
/* Create a Verilog Module based on the circuit model, and add to module manager */ /* Create a Verilog Module based on the circuit model, and add to module manager */
@ -67,7 +123,6 @@ void build_mux_local_decoder_module(ModuleManager& module_manager,
module_manager.add_port(module_id, data_inv_port, ModuleManager::MODULE_OUTPUT_PORT); module_manager.add_port(module_id, data_inv_port, ModuleManager::MODULE_OUTPUT_PORT);
} }
/*************************************************************************************** /***************************************************************************************
* This function will generate all the unique Verilog modules of local decoders for * This function will generate all the unique Verilog modules of local decoders for
* the multiplexers used in a FPGA fabric * the multiplexers used in a FPGA fabric

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@ -5,6 +5,7 @@
* Include header files that are required by function declaration * Include header files that are required by function declaration
*******************************************************************/ *******************************************************************/
#include "module_manager.h" #include "module_manager.h"
#include "decoder_library.h"
#include "mux_library.h" #include "mux_library.h"
#include "circuit_library.h" #include "circuit_library.h"
@ -15,6 +16,10 @@
/* begin namespace openfpga */ /* begin namespace openfpga */
namespace openfpga { namespace openfpga {
ModuleId build_frame_memory_decoder_module(ModuleManager& module_manager,
const DecoderLibrary& decoder_lib,
const DecoderId& decoder);
void build_mux_local_decoder_modules(ModuleManager& module_manager, void build_mux_local_decoder_modules(ModuleManager& module_manager,
const MuxLibrary& mux_lib, const MuxLibrary& mux_lib,
const CircuitLibrary& circuit_lib); const CircuitLibrary& circuit_lib);

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@ -27,8 +27,9 @@ namespace openfpga {
* for a FPGA fabric * for a FPGA fabric
*******************************************************************/ *******************************************************************/
ModuleManager build_device_module_graph(IoLocationMap& io_location_map, ModuleManager build_device_module_graph(IoLocationMap& io_location_map,
const DeviceContext& vpr_device_ctx, DecoderLibrary& decoder_lib,
const OpenfpgaContext& openfpga_ctx, const OpenfpgaContext& openfpga_ctx,
const DeviceContext& vpr_device_ctx,
const bool& compress_routing, const bool& compress_routing,
const bool& duplicate_grid_pin, const bool& duplicate_grid_pin,
const bool& verbose) { const bool& verbose) {
@ -66,7 +67,9 @@ ModuleManager build_device_module_graph(IoLocationMap& io_location_map,
build_wire_modules(module_manager, openfpga_ctx.arch().circuit_lib); build_wire_modules(module_manager, openfpga_ctx.arch().circuit_lib);
/* Build memory modules */ /* Build memory modules */
build_memory_modules(module_manager, openfpga_ctx.mux_lib(), build_memory_modules(module_manager,
decoder_lib,
openfpga_ctx.mux_lib(),
openfpga_ctx.arch().circuit_lib, openfpga_ctx.arch().circuit_lib,
openfpga_ctx.arch().config_protocol.type()); openfpga_ctx.arch().config_protocol.type());

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@ -15,8 +15,9 @@
namespace openfpga { namespace openfpga {
ModuleManager build_device_module_graph(IoLocationMap& io_location_map, ModuleManager build_device_module_graph(IoLocationMap& io_location_map,
const DeviceContext& vpr_device_ctx, DecoderLibrary& decoder_lib,
const OpenfpgaContext& openfpga_ctx, const OpenfpgaContext& openfpga_ctx,
const DeviceContext& vpr_device_ctx,
const bool& compress_routing, const bool& compress_routing,
const bool& duplicate_grid_pin, const bool& duplicate_grid_pin,
const bool& verbose); const bool& verbose);

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@ -15,12 +15,14 @@
#include "mux_graph.h" #include "mux_graph.h"
#include "module_manager.h" #include "module_manager.h"
#include "circuit_library_utils.h" #include "circuit_library_utils.h"
#include "decoder_library_utils.h"
#include "module_manager_utils.h" #include "module_manager_utils.h"
#include "mux_utils.h" #include "mux_utils.h"
#include "openfpga_reserved_words.h" #include "openfpga_reserved_words.h"
#include "openfpga_naming.h" #include "openfpga_naming.h"
#include "build_decoder_modules.h"
#include "build_memory_modules.h" #include "build_memory_modules.h"
/* begin namespace openfpga */ /* begin namespace openfpga */
@ -553,6 +555,178 @@ void build_memory_bank_module(ModuleManager& module_manager,
add_module_global_ports_from_child_modules(module_manager, mem_module); add_module_global_ports_from_child_modules(module_manager, mem_module);
} }
/*********************************************************************
* Frame-based Memory organization
*
* EN Address Data
* | | |
* v v v
* +------------------------------------+
* | Address Decoder |
* +------------------------------------+
* | | |
* v v v
* +-------+ +-------+ +-------+
* | SRAM | | SRAM | ... | SRAM |
* | [0] | | [1] | | [N-1] |
* +-------+ +-------+ +-------+
* | | ... |
* v v v
* +------------------------------------+
* | Multiplexer Configuration port |
*
********************************************************************/
static
void build_frame_memory_module(ModuleManager& module_manager,
DecoderLibrary& frame_decoder_lib,
const CircuitLibrary& circuit_lib,
const std::string& module_name,
const CircuitModelId& sram_model,
const size_t& num_mems) {
/* Get the global ports required by the SRAM */
std::vector<enum e_circuit_model_port_type> global_port_types;
global_port_types.push_back(CIRCUIT_MODEL_PORT_CLOCK);
global_port_types.push_back(CIRCUIT_MODEL_PORT_INPUT);
std::vector<CircuitPortId> sram_global_ports = circuit_lib.model_global_ports_by_type(sram_model, global_port_types, true, false);
/* Get the input ports from the SRAM */
std::vector<CircuitPortId> sram_input_ports = circuit_lib.model_ports_by_type(sram_model, CIRCUIT_MODEL_PORT_INPUT, true);
/* A SRAM cell with BL/WL should not have any input */
VTR_ASSERT( 0 == sram_input_ports.size() );
/* Get the output ports from the SRAM */
std::vector<CircuitPortId> sram_output_ports = circuit_lib.model_ports_by_type(sram_model, CIRCUIT_MODEL_PORT_OUTPUT, true);
/* Get the BL/WL ports from the SRAM
* Here, we consider that the WL port will be EN signal of a SRAM
* and the BL port will be the data_in signal of a SRAM
*/
std::vector<CircuitPortId> sram_bl_ports = circuit_lib.model_ports_by_type(sram_model, CIRCUIT_MODEL_PORT_BL, true);
std::vector<CircuitPortId> sram_blb_ports = circuit_lib.model_ports_by_type(sram_model, CIRCUIT_MODEL_PORT_BLB, true);
std::vector<CircuitPortId> sram_wl_ports = circuit_lib.model_ports_by_type(sram_model, CIRCUIT_MODEL_PORT_WL, true);
std::vector<CircuitPortId> sram_wlb_ports = circuit_lib.model_ports_by_type(sram_model, CIRCUIT_MODEL_PORT_WLB, true);
/* We do NOT expect any BLB port here!!!
* TODO: to suppor this, we need an inverter circuit model to be specified by users !!!
*/
VTR_ASSERT(1 == sram_bl_ports.size());
VTR_ASSERT(1 == circuit_lib.port_size(sram_bl_ports[0]));
VTR_ASSERT(1 == sram_wl_ports.size());
VTR_ASSERT(1 == circuit_lib.port_size(sram_wl_ports[0]));
VTR_ASSERT(0 == sram_blb_ports.size());
/* Create a module and add to the module manager */
ModuleId mem_module = module_manager.add_module(module_name);
VTR_ASSERT(true == module_manager.valid_module_id(mem_module));
/* Find the specification of the decoder:
* Size of address port and data input
*/
size_t addr_size = find_mux_local_decoder_addr_size(num_mems);
/* Data input should match the WL (data_in) of a SRAM */
size_t data_size = num_mems * circuit_lib.port_size(sram_bl_ports[0]);
bool use_data_inv = (0 < sram_blb_ports.size());
/* Search the decoder library
* If we find one, we use the module.
* Otherwise, we create one and add it to the decoder library
*/
DecoderId decoder_id = frame_decoder_lib.find_decoder(addr_size, data_size, true, true, use_data_inv);
if (DecoderId::INVALID() == decoder_id) {
decoder_id = frame_decoder_lib.add_decoder(addr_size, data_size, true, true, use_data_inv);
}
VTR_ASSERT(DecoderId::INVALID() != decoder_id);
/* Create a module if not existed yet */
std::string decoder_module_name = generate_frame_memory_decoder_subckt_name(addr_size, data_size);
ModuleId decoder_module = module_manager.find_module(decoder_module_name);
if (ModuleId::INVALID() == decoder_module) {
decoder_module = build_frame_memory_decoder_module(module_manager,
frame_decoder_lib,
decoder_id);
}
VTR_ASSERT(ModuleId::INVALID() != decoder_module);
/* Add module ports */
/* Input: Enable port */
BasicPort en_port(std::string(DECODER_ENABLE_PORT_NAME), 1);
ModulePortId mem_en_port = module_manager.add_port(mem_module, en_port, ModuleManager::MODULE_INPUT_PORT);
/* Input: Address port */
BasicPort addr_port(std::string(DECODER_ADDRESS_PORT_NAME), addr_size);
ModulePortId mem_addr_port = module_manager.add_port(mem_module, addr_port, ModuleManager::MODULE_INPUT_PORT);
/* Input: Data port */
BasicPort data_port(std::string(DECODER_DATA_PORT_NAME), data_size);
ModulePortId mem_data_port = module_manager.add_port(mem_module, data_port, ModuleManager::MODULE_INPUT_PORT);
/* Add each output port: port width should match the number of memories */
for (const auto& port : sram_output_ports) {
BasicPort output_port(circuit_lib.port_prefix(port), num_mems * circuit_lib.port_size(port));
module_manager.add_port(mem_module, output_port, ModuleManager::MODULE_OUTPUT_PORT);
}
/* Instanciate the decoder module here */
VTR_ASSERT(0 == module_manager.num_instance(mem_module, decoder_module));
module_manager.add_child_module(mem_module, decoder_module);
/* Find the sram module in the module manager */
ModuleId sram_mem_module = module_manager.find_module(circuit_lib.model_name(sram_model));
/* Build module nets */
/* Wire enable port to decoder enable port */
ModulePortId decoder_en_port = module_manager.find_module_port(decoder_module, std::string(DECODER_ENABLE_PORT_NAME));
add_module_bus_nets(module_manager, mem_module,
mem_module, 0, mem_en_port,
decoder_module, 0, decoder_en_port);
/* Wire address port to decoder address port */
ModulePortId decoder_addr_port = module_manager.find_module_port(decoder_module, std::string(DECODER_ADDRESS_PORT_NAME));
add_module_bus_nets(module_manager, mem_module,
mem_module, 0, mem_addr_port,
decoder_module, 0, decoder_addr_port);
/* Instanciate each submodule */
for (size_t i = 0; i < num_mems; ++i) {
/* Memory seed module instanciation */
size_t sram_instance = module_manager.num_instance(mem_module, sram_mem_module);
module_manager.add_child_module(mem_module, sram_mem_module);
/* Wire data_in port to SRAM BL port */
ModulePortId sram_bl_port = module_manager.find_module_port(sram_mem_module, circuit_lib.port_lib_name(sram_bl_ports[0]));
add_module_bus_nets(module_manager, mem_module,
mem_module, 0, mem_data_port,
sram_mem_module, sram_instance, sram_bl_port);
/* Wire decoder data_out port to sram WL ports */
ModulePortId sram_wl_port = module_manager.find_module_port(sram_mem_module, circuit_lib.port_lib_name(sram_wl_ports[0]));
ModulePortId decoder_data_port = module_manager.find_module_port(decoder_module, std::string(DECODER_DATA_PORT_NAME));
ModuleNetId wl_net = module_manager.create_module_net(mem_module);
/* Source node of the input net is the input of memory module */
module_manager.add_module_net_source(mem_module, wl_net, decoder_module, 0, decoder_data_port, sram_instance);
module_manager.add_module_net_sink(mem_module, wl_net, sram_mem_module, sram_instance, sram_wl_port, 0);
/* Optional: Wire decoder data_out inverted port to sram WLB ports */
if (true == use_data_inv) {
ModulePortId sram_wlb_port = module_manager.find_module_port(sram_mem_module, circuit_lib.port_lib_name(sram_wlb_ports[0]));
ModulePortId decoder_data_inv_port = module_manager.find_module_port(decoder_module, std::string(DECODER_DATA_INV_PORT_NAME));
ModuleNetId wlb_net = module_manager.create_module_net(mem_module);
/* Source node of the input net is the input of memory module */
module_manager.add_module_net_source(mem_module, wlb_net, decoder_module, 0, decoder_data_inv_port, sram_instance);
module_manager.add_module_net_sink(mem_module, wlb_net, sram_mem_module, sram_instance, sram_wlb_port, 0);
}
/* Wire inputs of parent module to outputs of child modules */
add_module_output_nets_to_mem_modules(module_manager, mem_module, circuit_lib, sram_output_ports, sram_mem_module, i, sram_instance);
}
/* Add global ports to the pb_module:
* This is a much easier job after adding sub modules (instances),
* we just need to find all the global ports from the child modules and build a list of it
*/
add_module_global_ports_from_child_modules(module_manager, mem_module);
}
/********************************************************************* /*********************************************************************
* Generate Verilog modules for the memories that are used * Generate Verilog modules for the memories that are used
@ -566,6 +740,7 @@ void build_memory_bank_module(ModuleManager& module_manager,
********************************************************************/ ********************************************************************/
static static
void build_memory_module(ModuleManager& module_manager, void build_memory_module(ModuleManager& module_manager,
DecoderLibrary& arch_decoder_lib,
const CircuitLibrary& circuit_lib, const CircuitLibrary& circuit_lib,
const e_config_protocol_type& sram_orgz_type, const e_config_protocol_type& sram_orgz_type,
const std::string& module_name, const std::string& module_name,
@ -574,7 +749,7 @@ void build_memory_module(ModuleManager& module_manager,
switch (sram_orgz_type) { switch (sram_orgz_type) {
case CONFIG_MEM_STANDALONE: case CONFIG_MEM_STANDALONE:
build_memory_standalone_module(module_manager, circuit_lib, build_memory_standalone_module(module_manager, circuit_lib,
module_name, sram_model, num_mems); module_name, sram_model, num_mems);
break; break;
case CONFIG_MEM_SCAN_CHAIN: case CONFIG_MEM_SCAN_CHAIN:
build_memory_chain_module(module_manager, circuit_lib, build_memory_chain_module(module_manager, circuit_lib,
@ -584,8 +759,13 @@ void build_memory_module(ModuleManager& module_manager,
build_memory_bank_module(module_manager, circuit_lib, build_memory_bank_module(module_manager, circuit_lib,
module_name, sram_model, num_mems); module_name, sram_model, num_mems);
break; break;
case CONFIG_MEM_FRAME_BASED:
build_frame_memory_module(module_manager, arch_decoder_lib, circuit_lib,
module_name, sram_model, num_mems);
break;
default: default:
VTR_LOGF_ERROR(__FILE__, __LINE__, "Invalid SRAM organization!\n"); VTR_LOGF_ERROR(__FILE__, __LINE__,
"Invalid configurable memory organization!\n");
exit(1); exit(1);
} }
} }
@ -606,6 +786,7 @@ void build_memory_module(ModuleManager& module_manager,
********************************************************************/ ********************************************************************/
static static
void build_mux_memory_module(ModuleManager& module_manager, void build_mux_memory_module(ModuleManager& module_manager,
DecoderLibrary& arch_decoder_lib,
const CircuitLibrary& circuit_lib, const CircuitLibrary& circuit_lib,
const e_config_protocol_type& sram_orgz_type, const e_config_protocol_type& sram_orgz_type,
const CircuitModelId& mux_model, const CircuitModelId& mux_model,
@ -626,7 +807,8 @@ void build_mux_memory_module(ModuleManager& module_manager,
std::vector<CircuitModelId> sram_models = find_circuit_sram_models(circuit_lib, mux_model); std::vector<CircuitModelId> sram_models = find_circuit_sram_models(circuit_lib, mux_model);
VTR_ASSERT( 1 == sram_models.size() ); VTR_ASSERT( 1 == sram_models.size() );
build_memory_module(module_manager, circuit_lib, sram_orgz_type, module_name, sram_models[0], num_config_bits); build_memory_module(module_manager, arch_decoder_lib,
circuit_lib, sram_orgz_type, module_name, sram_models[0], num_config_bits);
break; break;
} }
case CIRCUIT_MODEL_DESIGN_RRAM: case CIRCUIT_MODEL_DESIGN_RRAM:
@ -659,6 +841,7 @@ void build_mux_memory_module(ModuleManager& module_manager,
* memory-bank organization for the memories. * memory-bank organization for the memories.
********************************************************************/ ********************************************************************/
void build_memory_modules(ModuleManager& module_manager, void build_memory_modules(ModuleManager& module_manager,
DecoderLibrary& arch_decoder_lib,
const MuxLibrary& mux_lib, const MuxLibrary& mux_lib,
const CircuitLibrary& circuit_lib, const CircuitLibrary& circuit_lib,
const e_config_protocol_type& sram_orgz_type) { const e_config_protocol_type& sram_orgz_type) {
@ -676,7 +859,8 @@ void build_memory_modules(ModuleManager& module_manager,
continue; continue;
} }
/* Create a Verilog module for the memories used by the multiplexer */ /* Create a Verilog module for the memories used by the multiplexer */
build_mux_memory_module(module_manager, circuit_lib, sram_orgz_type, mux_model, mux_graph); build_mux_memory_module(module_manager, arch_decoder_lib,
circuit_lib, sram_orgz_type, mux_model, mux_graph);
} }
/* Create the memory circuits for non-MUX circuit models. /* Create the memory circuits for non-MUX circuit models.
@ -708,7 +892,8 @@ void build_memory_modules(ModuleManager& module_manager,
std::string module_name = generate_memory_module_name(circuit_lib, model, sram_models[0], std::string(MEMORY_MODULE_POSTFIX)); std::string module_name = generate_memory_module_name(circuit_lib, model, sram_models[0], std::string(MEMORY_MODULE_POSTFIX));
/* Create a Verilog module for the memories used by the circuit model */ /* Create a Verilog module for the memories used by the circuit model */
build_memory_module(module_manager, circuit_lib, sram_orgz_type, module_name, sram_models[0], num_mems); build_memory_module(module_manager, arch_decoder_lib,
circuit_lib, sram_orgz_type, module_name, sram_models[0], num_mems);
} }
} }

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@ -4,6 +4,7 @@
/******************************************************************** /********************************************************************
* Include header files that are required by function declaration * Include header files that are required by function declaration
*******************************************************************/ *******************************************************************/
#include "decoder_library.h"
#include "circuit_library.h" #include "circuit_library.h"
#include "mux_library.h" #include "mux_library.h"
#include "module_manager.h" #include "module_manager.h"
@ -16,6 +17,7 @@
namespace openfpga { namespace openfpga {
void build_memory_modules(ModuleManager& module_manager, void build_memory_modules(ModuleManager& module_manager,
DecoderLibrary& arch_decoder_lib,
const MuxLibrary& mux_lib, const MuxLibrary& mux_lib,
const CircuitLibrary& circuit_lib, const CircuitLibrary& circuit_lib,
const e_config_protocol_type& sram_orgz_type); const e_config_protocol_type& sram_orgz_type);

View File

@ -1227,6 +1227,66 @@ size_t find_module_num_config_bits_from_child_modules(ModuleManager& module_mana
return num_config_bits; return num_config_bits;
} }
/********************************************************************
* Add a bus of nets to a module (cur_module_id)
* Note:
* - both src and des module should exist in the module manager
* - src_module should be the cur_module or a child of it
* - des_module should be the cur_module or a child of it
* - src_instance should be valid and des_instance should be valid as well
* - src port size should match the des port size
*******************************************************************/
void add_module_bus_nets(ModuleManager& module_manager,
const ModuleId& cur_module_id,
const ModuleId& src_module_id,
const size_t& src_instance_id,
const ModulePortId& src_module_port_id,
const ModuleId& des_module_id,
const size_t& des_instance_id,
const ModulePortId& des_module_port_id) {
VTR_ASSERT(true == module_manager.valid_module_id(cur_module_id));
VTR_ASSERT(true == module_manager.valid_module_id(src_module_id));
VTR_ASSERT(true == module_manager.valid_module_id(des_module_id));
VTR_ASSERT(true == module_manager.valid_module_port_id(src_module_id, src_module_port_id));
VTR_ASSERT(true == module_manager.valid_module_port_id(des_module_id, des_module_port_id));
if (src_module_id == cur_module_id) {
VTR_ASSERT(0 == src_instance_id);
} else {
VTR_ASSERT(src_instance_id < module_manager.num_instance(cur_module_id, src_module_id));
}
if (des_module_id == cur_module_id) {
VTR_ASSERT(0 == des_instance_id);
} else {
VTR_ASSERT(des_instance_id < module_manager.num_instance(cur_module_id, des_module_id));
}
const BasicPort& src_port = module_manager.module_port(src_module_id, src_module_port_id);
const BasicPort& des_port = module_manager.module_port(des_module_id, des_module_port_id);
if (src_port.get_width() != des_port.get_width()) {
VTR_LOGF_ERROR(__FILE__, __LINE__,
"Unmatched port size: src_port is %lu while des_port is %lu!\n");
exit(1);
}
/* Create a net for each pin */
for (size_t pin_id = 0; pin_id < src_port.pins().size(); ++pin_id) {
ModuleNetId net = module_manager.module_instance_port_net(cur_module_id,
src_module_id, src_instance_id,
src_module_port_id, src_port.pins()[pin_id]);
if (ModuleNetId::INVALID() == net) {
net = module_manager.create_module_net(cur_module_id);
}
/* Configure the net source */
module_manager.add_module_net_source(cur_module_id, net, src_module_id, src_instance_id, src_module_port_id, src_port.pins()[pin_id]);
/* Configure the net sink */
module_manager.add_module_net_sink(cur_module_id, net, des_module_id, des_instance_id, des_module_port_id, des_port.pins()[pin_id]);
}
}
/******************************************************************** /********************************************************************
* TODO: * TODO:

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@ -129,6 +129,15 @@ size_t find_module_num_config_bits_from_child_modules(ModuleManager& module_mana
const CircuitModelId& sram_model, const CircuitModelId& sram_model,
const e_config_protocol_type& sram_orgz_type); const e_config_protocol_type& sram_orgz_type);
void add_module_bus_nets(ModuleManager& module_manager,
const ModuleId& cur_module_id,
const ModuleId& src_module_id,
const size_t& src_instance_id,
const ModulePortId& src_module_port_id,
const ModuleId& des_module_id,
const size_t& des_instance_id,
const ModulePortId& des_module_port_id);
} /* end namespace openfpga */ } /* end namespace openfpga */
#endif #endif