diff options
Diffstat (limited to 'configs')
| -rw-r--r-- | configs/tested-cfgs/SM2_GTX480/gpgpusim.config | 12 | ||||
| -rw-r--r-- | configs/tested-cfgs/SM3_KEPLER_TITAN/gpgpusim.config | 21 | ||||
| -rw-r--r-- | configs/tested-cfgs/SM6_TITANX/gpgpusim.config | 35 | ||||
| -rw-r--r-- | configs/tested-cfgs/SM6_TITANX/gpgpusim_old.config | 192 | ||||
| -rw-r--r-- | configs/tested-cfgs/SM75_RTX2060/gpgpusim.config | 73 | ||||
| -rw-r--r-- | configs/tested-cfgs/SM7_QV100/gpgpusim.config | 61 | ||||
| -rw-r--r-- | configs/tested-cfgs/SM7_QV100_SASS/config_volta_islip.icnt | 74 | ||||
| -rw-r--r-- | configs/tested-cfgs/SM7_QV100_SASS/gpgpusim.config | 206 | ||||
| -rw-r--r-- | configs/tested-cfgs/SM7_TITANV/config_volta_islip.icnt | 74 | ||||
| -rw-r--r-- | configs/tested-cfgs/SM7_TITANV/gpgpusim.config | 205 |
10 files changed, 111 insertions, 842 deletions
diff --git a/configs/tested-cfgs/SM2_GTX480/gpgpusim.config b/configs/tested-cfgs/SM2_GTX480/gpgpusim.config index 4a7a3c3..5a12e2e 100644 --- a/configs/tested-cfgs/SM2_GTX480/gpgpusim.config +++ b/configs/tested-cfgs/SM2_GTX480/gpgpusim.config @@ -63,10 +63,10 @@ -gpgpu_shmem_size 49152 -gpgpu_shmem_sizeDefault 49152 -icnt_flit_size 40 --gmem_skip_L1D 0 +-gpgpu_gmem_skip_L1D 0 -gpgpu_n_cluster_ejection_buffer_size 32 --l1_latency 35 --smem_latency 26 +-gpgpu_l1_latency 35 +-gpgpu_smem_latency 26 -gpgpu_flush_l1_cache 1 # The alternative configuration for fermi in case cudaFuncCachePreferL1 is selected @@ -77,8 +77,8 @@ -gpgpu_cache:dl2 S:64:128:8,L:B:m:L:L,A:256:4,4:0,32 -gpgpu_cache:dl2_texture_only 0 -gpgpu_dram_partition_queues 64:64:64:64 --perf_sim_memcpy 1 --memory_partition_indexing 0 +-gpgpu_perf_sim_memcpy 1 +-gpgpu_memory_partition_indexing 0 -gpgpu_cache:il1 N:4:128:4,L:R:f:N:L,S:2:32,4 -gpgpu_tex_cache:l1 N:4:128:24,L:R:m:N:L,T:128:4,128:2 @@ -104,7 +104,7 @@ -inter_config_file config_fermi_islip.icnt # memory partition latency config --rop_latency 120 +-gpgpu_l2_rop_latency 120 -dram_latency 100 # dram model config diff --git a/configs/tested-cfgs/SM3_KEPLER_TITAN/gpgpusim.config b/configs/tested-cfgs/SM3_KEPLER_TITAN/gpgpusim.config index 77617d6..b7c0edc 100644 --- a/configs/tested-cfgs/SM3_KEPLER_TITAN/gpgpusim.config +++ b/configs/tested-cfgs/SM3_KEPLER_TITAN/gpgpusim.config @@ -67,6 +67,11 @@ -ptx_opcode_initiation_sfu 2 -ptx_opcode_latency_sfu 200 +-trace_opcode_latency_initiation_int 4,1 +-trace_opcode_latency_initiation_sp 4,1 +-trace_opcode_latency_initiation_dp 20,2 +-trace_opcode_latency_initiation_sfu 200,2 + # enable operand collector -gpgpu_operand_collector_num_units_sp 12 -gpgpu_operand_collector_num_units_sfu 6 @@ -112,10 +117,10 @@ -gpgpu_shmem_size_PrefShared 49152 # By default, L1 cache is disabled in Kepler P102 and only enabled for local memory # requests with .nc modifier or __ldg mehtod will be cached in L1 cache even with gmem_skip_L1D=1 --gmem_skip_L1D 1 +-gpgpu_gmem_skip_L1D 1 -icnt_flit_size 40 -gpgpu_n_cluster_ejection_buffer_size 32 --l1_latency 82 +-gpgpu_l1_latency 82 -smem_latency 24 -gpgpu_flush_l1_cache 1 @@ -123,12 +128,12 @@ -gpgpu_cache:dl2 S:32:128:16,L:B:m:L:L,A:256:64,16:0,32 -gpgpu_cache:dl2_texture_only 0 -gpgpu_dram_partition_queues 32:32:32:32 --perf_sim_memcpy 1 --memory_partition_indexing 0 +-gpgpu_perf_sim_memcpy 1 +-gpgpu_memory_partition_indexing 0 # 4 KB Inst. -gpgpu_cache:il1 N:8:128:4,L:R:f:N:L,S:2:48,4 --inst_fetch_throughput 8 +-gpgpu_inst_fetch_throughput 8 # 48 KB Tex -gpgpu_tex_cache:l1 N:16:128:24,L:R:m:N:L,T:128:4,128:2 # 12 KB Const @@ -139,7 +144,7 @@ -inter_config_file config_kepler_islip.icnt # memory partition latency config --rop_latency 120 +-gpgpu_l2_rop_latency 120 -dram_latency 100 # dram model config @@ -164,8 +169,8 @@ -dram_bnk_indexing_policy 0 -dram_bnkgrp_indexing_policy 1 -#-Seperate_Write_Queue_Enable 1 -#-Write_Queue_Size 64:56:32 +#-dram_seperate_write_queue_enable 1 +#-dram_write_queue_size 64:56:32 # stat collection -gpgpu_memlatency_stat 14 diff --git a/configs/tested-cfgs/SM6_TITANX/gpgpusim.config b/configs/tested-cfgs/SM6_TITANX/gpgpusim.config index d54b7d4..adbf66c 100644 --- a/configs/tested-cfgs/SM6_TITANX/gpgpusim.config +++ b/configs/tested-cfgs/SM6_TITANX/gpgpusim.config @@ -22,6 +22,8 @@ # SASS execution (only supported with CUDA >= 4.0) -gpgpu_ptx_convert_to_ptxplus 0 -gpgpu_ptx_save_converted_ptxplus 0 +# SASS trace-driven mode execution +#-trace_driven_mode 1 # high level architecture configuration -gpgpu_n_clusters 28 @@ -62,13 +64,18 @@ -ptx_opcode_latency_dp 8,19,8,8,330 -ptx_opcode_initiation_dp 8,8,8,8,130 -ptx_opcode_initiation_sfu 4 --ptx_opcode_latency_sfu 8 +-ptx_opcode_latency_sfu 20 + +-trace_opcode_latency_initiation_int 4,1 +-trace_opcode_latency_initiation_sp 4,1 +-trace_opcode_latency_initiation_dp 20,8 +-trace_opcode_latency_initiation_sfu 20,4 # in sub_core_model, schedulers are isolated, each scheduler has its own register file and EUs --sub_core_model 1 +-gpgpu_sub_core_model 1 # enable operand collector # disable specialized operand collectors and use generic operand collectors instead --enable_specialized_operand_collector 0 +-gpgpu_enable_specialized_operand_collector 0 -gpgpu_operand_collector_num_units_gen 8 -gpgpu_operand_collector_num_in_ports_gen 8 -gpgpu_operand_collector_num_out_ports_gen 8 @@ -97,7 +104,7 @@ # ** Optional parameter - Required when mshr_type==Texture Fifo # Note: Hashing set index function (H) only applies to a set size of 32 or 64. # The defulat is to disable the L1 cache, unless cache modifieres are used --l1_banks 2 +-gpgpu_l1_banks 2 -gpgpu_cache:dl1 S:4:128:96,L:L:s:N:L,A:256:8,16:0,32 -gpgpu_cache:dl1PrefL1 S:4:128:96,L:L:s:N:L,A:256:8,16:0,32 -gpgpu_cache:dl1PrefShared S:4:128:96,L:L:s:N:L,A:256:8,16:0,32 @@ -107,36 +114,36 @@ -gpgpu_shmem_size_PrefShared 98304 # By default, L1 cache is disabled in Pascal P102. # requests with .nc modifier or __ldg mehtod will be cached in L1 cache even with gmem_skip_L1D=1 --gmem_skip_L1D 1 +-gpgpu_gmem_skip_L1D 1 -icnt_flit_size 40 -gpgpu_n_cluster_ejection_buffer_size 32 --l1_latency 82 --smem_latency 24 +-gpgpu_l1_latency 82 +-gpgpu_smem_latency 24 -gpgpu_flush_l1_cache 1 # 64 sets, each 128 bytes 16-way for each memory sub partition (128 KB per memory sub partition). This gives 3MB L2 cache -gpgpu_cache:dl2 S:1:128:1024,L:B:m:L:L,A:256:64,16:0,32 -gpgpu_cache:dl2_texture_only 0 -gpgpu_dram_partition_queues 32:32:32:32 --perf_sim_memcpy 1 --memory_partition_indexing 4 +-gpgpu_perf_sim_memcpy 1 +-gpgpu_memory_partition_indexing 4 # 4 KB Inst. -gpgpu_cache:il1 N:8:128:4,L:R:f:N:L,S:2:48,4 --inst_fetch_throughput 8 +-gpgpu_inst_fetch_throughput 8 # 48 KB Tex # Note, TEX is deprected in Pascal, It is used for legacy apps only. Use L1D cache instead with .nc modifier or __ldg mehtod -gpgpu_tex_cache:l1 N:16:128:24,L:R:m:N:L,T:128:4,128:2 # 12 KB Const -gpgpu_const_cache:l1 N:128:64:2,L:R:f:N:L,S:2:64,4 --perfect_inst_const_cache 1 +-gpgpu_perfect_inst_const_cache 1 # interconnection -network_mode 1 -inter_config_file config_pascal_islip.icnt # memory partition latency config --rop_latency 120 +-gpgpu_l2_rop_latency 120 -dram_latency 100 # dram model config @@ -161,8 +168,8 @@ -dram_bnk_indexing_policy 0 -dram_bnkgrp_indexing_policy 1 -#-Seperate_Write_Queue_Enable 1 -#-Write_Queue_Size 64:56:32 +#-dram_seperate_write_queue_enable 1 +#-dram_write_queue_size 64:56:32 # stat collection -gpgpu_memlatency_stat 14 diff --git a/configs/tested-cfgs/SM6_TITANX/gpgpusim_old.config b/configs/tested-cfgs/SM6_TITANX/gpgpusim_old.config deleted file mode 100644 index 17ad779..0000000 --- a/configs/tested-cfgs/SM6_TITANX/gpgpusim_old.config +++ /dev/null @@ -1,192 +0,0 @@ -# This config models the Pascal GP102 (NVIDIA TITAN X) -# For more info about this card, see Nvidia White paper -# http://international.download.nvidia.com/geforce-com/international/pdfs/GeForce_GTX_1080_Whitepaper_FINAL.pdf - -# functional simulator specification --gpgpu_ptx_instruction_classification 0 --gpgpu_ptx_sim_mode 0 --gpgpu_ptx_force_max_capability 61 --gpgpu_ignore_resources_limitation 1 - -# Device Limits --gpgpu_stack_size_limit 1024 --gpgpu_heap_size_limit 8388608 --gpgpu_runtime_sync_depth_limit 2 --gpgpu_runtime_pending_launch_count_limit 2048 - -# Compute Capability --gpgpu_compute_capability_major 6 --gpgpu_compute_capability_minor 1 - -# SASS execution (only supported with CUDA >= 4.0) --gpgpu_ptx_convert_to_ptxplus 0 --gpgpu_ptx_save_converted_ptxplus 0 - -# high level architecture configuration -# P102 has two semi-indp scheds per core, and two cores per cluster --gpgpu_n_clusters 28 --gpgpu_n_cores_per_cluster 2 --gpgpu_n_mem 12 --gpgpu_n_sub_partition_per_mchannel 2 - -# Pascal clock domains -#-gpgpu_clock_domains <Core Clock>:<Interconnect Clock>:<L2 Clock>:<DRAM Clock> -# Pascal NVIDIA TITAN X clock domains are adopted from -# https://en.wikipedia.org/wiki/GeForce_10_series --gpgpu_clock_domains 1417.0:1417.0:1417.0:2500.0 - -# shader core pipeline config --gpgpu_shader_registers 32768 --gpgpu_occupancy_sm_number 62 - -# This implies a maximum of 32 warps/SM --gpgpu_shader_core_pipeline 1024:32 --gpgpu_shader_cta 16 --gpgpu_simd_model 1 - -# Pipeline widths and number of FUs -# ID_OC_SP,ID_OC_DP,ID_OC_INT,ID_OC_SFU,ID_OC_MEM,OC_EX_SP,OC_EX_DP,OC_EX_INT,OC_EX_SFU,OC_EX_MEM,EX_WB -## Pascal GP102 has 4 SP SIMD units and 4 SFU units per SM. In this config, we split SM into two shader cores, each has 2 SPs and 2 SFUs -# There is no int unit in Pascal -## we need to scale the number of pipeline registers to be equal to the number of SP units --gpgpu_pipeline_widths 2,1,0,2,1,2,1,0,2,1,5 --gpgpu_num_sp_units 2 --gpgpu_num_sfu_units 2 --gpgpu_num_dp_units 1 - - -# Instruction latencies and initiation intervals -# "ADD,MAX,MUL,MAD,DIV" -# All Div operations are executed on SFU unit -# Throughput (initiation latency) are adopted from CUDA SDK document V8, section 5.4.1, Table 2 --ptx_opcode_latency_int 4,13,4,5,145 --ptx_opcode_initiation_int 1,1,1,1,4 --ptx_opcode_latency_fp 4,13,4,5,39 --ptx_opcode_initiation_fp 1,2,1,1,4 --ptx_opcode_latency_dp 8,19,8,8,330 --ptx_opcode_initiation_dp 8,8,8,8,130 --ptx_opcode_initiation_sfu 4 --ptx_opcode_latency_sfu 8 - - -# latencies and cache configs are adopted from: -# https://arxiv.org/pdf/1804.06826.pdf -# <nsets>:<bsize>:<assoc>,<rep>:<wr>:<alloc>:<wr_alloc>:<set_index_fn>,<mshr>:<N>:<merge>,<mq>:**<fifo_entry> -# ** Optional parameter - Required when mshr_type==Texture Fifo -# Note: Hashing set index function (H) only applies to a set size of 32 or 64. -# Pascal GP102 has 96KB Shared memory divided over 2 cores, each has 48KB -# Pascal GP102 has 2 banks L1 cache, where each is 24KB L1 cache -# The defulat is to disable the L1 cache, unless cache modifieres are used --gpgpu_cache:dl1 S:4:128:48,L:L:s:N:L,A:256:8,16:0,32 --gpgpu_cache:dl1PrefL1 S:4:128:48,L:L:s:N:L,A:256:8,16:0,32 --gpgpu_cache:dl1PrefShared S:4:128:48,L:L:s:N:L,A:256:8,16:0,32 --gpgpu_shmem_size 49152 --gpgpu_shmem_sizeDefault 49152 --gpgpu_shmem_size_PrefL1 49152 --gpgpu_shmem_size_PrefShared 49152 -# By default, L1 cache is disabled in Pascal P102. -# requests with .nc modifier or __ldg mehtod will be cached in L1 cache even with gmem_skip_L1D=1 --gmem_skip_L1D 1 --icnt_flit_size 40 --gpgpu_n_cluster_ejection_buffer_size 32 --l1_latency 82 --smem_latency 24 --gpgpu_flush_l1_cache 1 - -# 64 sets, each 128 bytes 16-way for each memory sub partition (128 KB per memory sub partition). This gives 3MB L2 cache --gpgpu_cache:dl2 S:64:128:16,L:B:m:L:L,A:256:64,16:0,32 --gpgpu_cache:dl2_texture_only 0 --gpgpu_dram_partition_queues 32:32:32:32 --perf_sim_memcpy 1 --memory_partition_indexing 0 - -# 4 KB Inst. --gpgpu_cache:il1 N:8:128:4,L:R:f:N:L,S:2:48,4 -# 48 KB Tex -# Note, TEX is deprected in Pascal, It is used for legacy apps only. Use L1D cache instead with .nc modifier or __ldg mehtod --gpgpu_tex_cache:l1 N:16:128:24,L:R:m:N:L,T:128:4,128:2 -# 12 KB Const --gpgpu_const_cache:l1 N:128:64:2,L:R:f:N:L,S:2:64,4 - -# enable operand collector --gpgpu_operand_collector_num_units_sp 12 --gpgpu_operand_collector_num_units_sfu 6 --gpgpu_operand_collector_num_units_mem 8 --gpgpu_operand_collector_num_units_dp 6 --gpgpu_operand_collector_num_in_ports_sp 2 --gpgpu_operand_collector_num_out_ports_sp 2 --gpgpu_operand_collector_num_in_ports_sfu 2 --gpgpu_operand_collector_num_out_ports_sfu 2 --gpgpu_operand_collector_num_in_ports_mem 1 --gpgpu_operand_collector_num_out_ports_mem 1 --gpgpu_operand_collector_num_in_ports_dp 1 --gpgpu_operand_collector_num_out_ports_dp 1 --gpgpu_num_reg_banks 32 - -# shared memory bankconflict detection --gpgpu_shmem_num_banks 32 --gpgpu_shmem_limited_broadcast 0 --gpgpu_shmem_warp_parts 1 -# Use Pascal Coalsce arhitetecture --gpgpu_coalesce_arch 61 - -## In Pascal, a warp scheduler can issue 2 insts per cycle using 2 diff execution units --gpgpu_max_insn_issue_per_warp 2 --gpgpu_dual_issue_diff_exec_units 1 - -# interconnection --network_mode 1 --inter_config_file config_pascal_islip.icnt - -# memory partition latency config --rop_latency 120 --dram_latency 100 - -# dram model config --gpgpu_dram_scheduler 1 --gpgpu_frfcfs_dram_sched_queue_size 64 --gpgpu_dram_return_queue_size 64 - -# for NVIDIA TITAN X, bus width is 384bits (12 DRAM chips x 32 bits) -# 12 memory paritions, 4 bytes (1 DRAM chip) per memory partition -# the atom size of GDDR5X (the smallest read request) is 32 bytes --gpgpu_n_mem_per_ctrlr 1 --gpgpu_dram_buswidth 4 --gpgpu_dram_burst_length 8 --dram_data_command_freq_ratio 4 # GDDR5X is QDR --gpgpu_mem_address_mask 1 --gpgpu_mem_addr_mapping dramid@8;00000000.00000000.00000000.00000000.0000RRRR.RRRRRRRR.RBBBCCCC.BCCSSSSS - -# Use the same GDDR5 timing, scaled to 2500MHZ --gpgpu_dram_timing_opt "nbk=16:CCD=2:RRD=8:RCD=16:RAS=37:RP=16:RC=52: - CL=16:WL=6:CDLR=7:WR=16:nbkgrp=4:CCDL=4:RTPL=3" - --dram_bnk_indexing_policy 0 --dram_bnkgrp_indexing_policy 1 - -#-Seperate_Write_Queue_Enable 1 -#-Write_Queue_Size 64:56:32 - -# Pascal 102 has four schedulers per core --gpgpu_num_sched_per_core 2 -# Two Level Scheduler with active and pending pools -#-gpgpu_scheduler two_level_active:6:0:1 -# Loose round robbin scheduler -#-gpgpu_scheduler lrr -# Greedy then oldest scheduler --gpgpu_scheduler gto - -# stat collection --gpgpu_memlatency_stat 14 --gpgpu_runtime_stat 500 --enable_ptx_file_line_stats 1 --visualizer_enabled 0 - -# power model configs, disable it untill we create a real energy model for Pascal 102 --power_simulation_enabled 0 - -# tracing functionality -#-trace_enabled 1 -#-trace_components WARP_SCHEDULER,SCOREBOARD -#-trace_sampling_core 0 - diff --git a/configs/tested-cfgs/SM75_RTX2060/gpgpusim.config b/configs/tested-cfgs/SM75_RTX2060/gpgpusim.config index b89971e..75b3c99 100644 --- a/configs/tested-cfgs/SM75_RTX2060/gpgpusim.config +++ b/configs/tested-cfgs/SM75_RTX2060/gpgpusim.config @@ -72,11 +72,31 @@ -ptx_opcode_latency_tesnor 64 -ptx_opcode_initiation_tensor 64 +-trace_opcode_latency_initiation_int 4,2 +-trace_opcode_latency_initiation_sp 4,2 +-trace_opcode_latency_initiation_dp 8,4 +-trace_opcode_latency_initiation_sfu 20,8 +-trace_opcode_latency_initiation_tensor 8,4 + +# Turing has four schedulers per core +-gpgpu_num_sched_per_core 4 +# Greedy then oldest scheduler +-gpgpu_scheduler gto +## In Turing, a warp scheduler can issue 1 inst per cycle +-gpgpu_max_insn_issue_per_warp 1 +-gpgpu_dual_issue_diff_exec_units 1 + +# shared memory bankconflict detection +-gpgpu_shmem_num_banks 32 +-gpgpu_shmem_limited_broadcast 0 +-gpgpu_shmem_warp_parts 1 +-gpgpu_coalesce_arch 75 + # Trung has sub core model, in which each scheduler has its own register file and EUs # i.e. schedulers are isolated --sub_core_model 1 +-gpgpu_sub_core_model 1 # disable specialized operand collectors and use generic operand collectors instead --enable_specialized_operand_collector 0 +-gpgpu_enable_specialized_operand_collector 0 -gpgpu_operand_collector_num_units_gen 8 -gpgpu_operand_collector_num_in_ports_gen 8 -gpgpu_operand_collector_num_out_ports_gen 8 @@ -85,65 +105,50 @@ -gpgpu_num_reg_banks 16 -gpgpu_reg_file_port_throughput 2 -# shared memory bankconflict detection --gpgpu_shmem_num_banks 32 --gpgpu_shmem_limited_broadcast 0 --gpgpu_shmem_warp_parts 1 --gpgpu_coalesce_arch 75 - -## In Turing, a warp scheduler can issue 1 inst per cycle --gpgpu_max_insn_issue_per_warp 1 --gpgpu_dual_issue_diff_exec_units 1 - -# Turing has four schedulers per core --gpgpu_num_sched_per_core 4 -# Greedy then oldest scheduler --gpgpu_scheduler gto - # <nsets>:<bsize>:<assoc>,<rep>:<wr>:<alloc>:<wr_alloc>:<set_index_fn>,<mshr>:<N>:<merge>,<mq>:**<fifo_entry> # ** Optional parameter - Required when mshr_type==Texture Fifo --adaptive_cache_config 0 --l1_banks 4 +-gpgpu_adaptive_cache_config 0 +-gpgpu_l1_banks 4 -gpgpu_cache:dl1 S:1:128:512,L:L:s:N:L,A:256:8,16:0,32 -gpgpu_shmem_size 65536 -gpgpu_shmem_sizeDefault 65536 -gpgpu_shmem_per_block 65536 --gmem_skip_L1D 0 --icnt_flit_size 40 +-gpgpu_gmem_skip_L1D 0 -gpgpu_n_cluster_ejection_buffer_size 32 --l1_latency 20 --smem_latency 20 +-gpgpu_l1_latency 20 +-gpgpu_smem_latency 20 -gpgpu_flush_l1_cache 1 # 32 sets, each 128 bytes 32-way for each memory sub partition (96 KB per memory sub partition). This gives us 6MB L2 cache -gpgpu_cache:dl2 S:32:128:32,L:B:m:L:L,A:192:4,32:0,32 -gpgpu_cache:dl2_texture_only 0 -gpgpu_dram_partition_queues 64:64:64:64 --perf_sim_memcpy 1 --memory_partition_indexing 0 +-gpgpu_perf_sim_memcpy 1 +-gpgpu_memory_partition_indexing 0 # 128 KB Inst. -gpgpu_cache:il1 N:64:128:16,L:R:f:N:L,S:2:48,4 --inst_fetch_throughput 4 +-gpgpu_inst_fetch_throughput 4 # 128 KB Tex # Note, TEX is deprected in Volta, It is used for legacy apps only. Use L1D cache instead with .nc modifier or __ldg mehtod -gpgpu_tex_cache:l1 N:4:128:256,L:R:m:N:L,T:512:8,128:2 # 64 KB Const -gpgpu_const_cache:l1 N:128:64:8,L:R:f:N:L,S:2:64,4 --perfect_inst_const_cache 1 +-gpgpu_perfect_inst_const_cache 1 # interconnection #-network_mode 1 #-inter_config_file config_turing_islip.icnt # use built-in local xbar -network_mode 2 --inct_in_buffer_limit 512 --inct_out_buffer_limit 512 --inct_subnets 2 --arbiter_algo 1 +-icnt_in_buffer_limit 512 +-icnt_out_buffer_limit 512 +-icnt_subnets 2 +-icnt_arbiter_algo 1 +-icnt_flit_size 40 # memory partition latency config --rop_latency 160 +-gpgpu_l2_rop_latency 160 -dram_latency 100 # dram model config @@ -168,8 +173,8 @@ -dram_bnk_indexing_policy 0 -dram_bnkgrp_indexing_policy 1 -#-Seperate_Write_Queue_Enable 1 -#-Write_Queue_Size 64:56:32 +#-dram_seperate_write_queue_enable 1 +#-dram_write_queue_size 64:56:32 # stat collection -gpgpu_memlatency_stat 14 diff --git a/configs/tested-cfgs/SM7_QV100/gpgpusim.config b/configs/tested-cfgs/SM7_QV100/gpgpusim.config index 1ed4fb2..30b7d13 100644 --- a/configs/tested-cfgs/SM7_QV100/gpgpusim.config +++ b/configs/tested-cfgs/SM7_QV100/gpgpusim.config @@ -28,6 +28,8 @@ # PTX execution-driven -gpgpu_ptx_convert_to_ptxplus 0 -gpgpu_ptx_save_converted_ptxplus 0 +# SASS trace-driven mode support +#-trace_driven_mode 1 # high level architecture configuration -gpgpu_n_clusters 80 @@ -77,11 +79,17 @@ -ptx_opcode_latency_tesnor 64 -ptx_opcode_initiation_tensor 64 +-trace_opcode_latency_initiation_int 4,2 +-trace_opcode_latency_initiation_sp 4,2 +-trace_opcode_latency_initiation_dp 8,4 +-trace_opcode_latency_initiation_sfu 20,8 +-trace_opcode_latency_initiation_tensor 8,4 + # Volta has sub core model, in which each scheduler has its own register file and EUs # i.e. schedulers are isolated --sub_core_model 1 +-gpgpu_sub_core_model 1 # disable specialized operand collectors and use generic operand collectors instead --enable_specialized_operand_collector 0 +-gpgpu_enable_specialized_operand_collector 0 -gpgpu_operand_collector_num_units_gen 8 -gpgpu_operand_collector_num_in_ports_gen 8 -gpgpu_operand_collector_num_out_ports_gen 8 @@ -96,6 +104,10 @@ -gpgpu_shmem_warp_parts 1 -gpgpu_coalesce_arch 60 +# Volta has four schedulers per core +-gpgpu_num_sched_per_core 4 +# Greedy then oldest scheduler +-gpgpu_scheduler gto ## In Volta, a warp scheduler can issue 1 inst per cycle -gpgpu_max_insn_issue_per_warp 1 -gpgpu_dual_issue_diff_exec_units 1 @@ -108,49 +120,49 @@ # if the assigned shd mem = 0, then L1 cache = 128KB # For more info, see https://docs.nvidia.com/cuda/cuda-c-programming-guide/index.html#shared-memory-7-x # disable this mode in case of multi kernels/apps execution --adaptive_cache_config 1 +-gpgpu_adaptive_cache_config 1 # Volta unified cache has four banks --l1_banks 4 +-gpgpu_l1_banks 4 -gpgpu_cache:dl1 S:1:128:256,L:L:s:N:L,A:256:8,16:0,32 -gpgpu_shmem_size 98304 -gpgpu_shmem_sizeDefault 98304 -gpgpu_shmem_per_block 65536 --gmem_skip_L1D 0 --icnt_flit_size 40 +-gpgpu_gmem_skip_L1D 0 -gpgpu_n_cluster_ejection_buffer_size 32 --l1_latency 20 --smem_latency 20 +-gpgpu_l1_latency 20 +-gpgpu_smem_latency 20 -gpgpu_flush_l1_cache 1 # 32 sets, each 128 bytes 24-way for each memory sub partition (96 KB per memory sub partition). This gives us 6MB L2 cache -gpgpu_cache:dl2 S:32:128:24,L:B:m:L:L,A:192:4,32:0,32 -gpgpu_cache:dl2_texture_only 0 -gpgpu_dram_partition_queues 64:64:64:64 --perf_sim_memcpy 1 --memory_partition_indexing 2 +-gpgpu_perf_sim_memcpy 1 +-gpgpu_memory_partition_indexing 2 # 128 KB Inst. -gpgpu_cache:il1 N:64:128:16,L:R:f:N:L,S:2:48,4 --inst_fetch_throughput 4 +-gpgpu_inst_fetch_throughput 4 # 128 KB Tex # Note, TEX is deprected in Volta, It is used for legacy apps only. Use L1D cache instead with .nc modifier or __ldg mehtod -gpgpu_tex_cache:l1 N:4:128:256,L:R:m:N:L,T:512:8,128:2 # 64 KB Const -gpgpu_const_cache:l1 N:128:64:8,L:R:f:N:L,S:2:64,4 --perfect_inst_const_cache 1 +-gpgpu_perfect_inst_const_cache 1 # interconnection #-network_mode 1 #-inter_config_file config_volta_islip.icnt # use built-in local xbar -network_mode 2 --inct_in_buffer_limit 512 --inct_out_buffer_limit 512 --inct_subnets 2 --arbiter_algo 1 +-icnt_in_buffer_limit 512 +-icnt_out_buffer_limit 512 +-icnt_subnets 2 +-icnt_flit_size 40 +-icnt_arbiter_algo 1 # memory partition latency config --rop_latency 160 +-gpgpu_l2_rop_latency 160 -dram_latency 100 # dram model config @@ -177,22 +189,13 @@ CL=12:WL=2:CDLR=3:WR=10:nbkgrp=4:CCDL=2:RTPL=3" # HBM has dual bus interface, in which it can issue two col and row commands at a time --dual_bus_interface 1 +-dram_dual_bus_interface 1 # select lower bits for bnkgrp to increase bnkgrp parallelism -dram_bnk_indexing_policy 0 -dram_bnkgrp_indexing_policy 1 -#-Seperate_Write_Queue_Enable 1 -#-Write_Queue_Size 64:56:32 - -# Volta has four schedulers per core --gpgpu_num_sched_per_core 4 -# Two Level Scheduler with active and pending pools -#-gpgpu_scheduler two_level_active:6:0:1 -# Loose round robbin scheduler -#-gpgpu_scheduler lrr -# Greedy then oldest scheduler --gpgpu_scheduler gto +#-dram_seperate_write_queue_enable 1 +#-dram_write_queue_size 64:56:32 # stat collection -gpgpu_memlatency_stat 14 diff --git a/configs/tested-cfgs/SM7_QV100_SASS/config_volta_islip.icnt b/configs/tested-cfgs/SM7_QV100_SASS/config_volta_islip.icnt deleted file mode 100644 index 5ad7ecd..0000000 --- a/configs/tested-cfgs/SM7_QV100_SASS/config_volta_islip.icnt +++ /dev/null @@ -1,74 +0,0 @@ -//21*1 fly with 32 flits per packet under gpgpusim injection mode -use_map = 0; -flit_size = 40; - -// currently we do not use this, see subnets below -network_count = 2; - -// Topology -topology = fly; -k = 144; -n = 1; - -// Routing - -routing_function = dest_tag; - - -// Flow control - -num_vcs = 1; -vc_buf_size = 256; -input_buffer_size = 256; -ejection_buffer_size = 256; -boundary_buffer_size = 256; - -wait_for_tail_credit = 0; - -// Router architecture - -vc_allocator = islip; //separable_input_first; -sw_allocator = islip; //separable_input_first; -alloc_iters = 1; - -credit_delay = 0; -routing_delay = 0; -vc_alloc_delay = 1; -sw_alloc_delay = 1; - -input_speedup = 1; -output_speedup = 1; -internal_speedup = 2.0; - -// Traffic, GPGPU-Sim does not use this - -traffic = uniform; -packet_size ={{1,2,3,4},{10,20}}; -packet_size_rate={{1,1,1,1},{2,1}}; - -// Simulation - Don't change - -sim_type = gpgpusim; -//sim_type = latency; -injection_rate = 0.1; - -subnets = 2; - -// Always use read and write no matter following line -//use_read_write = 1; - - -read_request_subnet = 0; -read_reply_subnet = 1; -write_request_subnet = 0; -write_reply_subnet = 1; - -read_request_begin_vc = 0; -read_request_end_vc = 0; -write_request_begin_vc = 0; -write_request_end_vc = 0; -read_reply_begin_vc = 0; -read_reply_end_vc = 0; -write_reply_begin_vc = 0; -write_reply_end_vc = 0; - diff --git a/configs/tested-cfgs/SM7_QV100_SASS/gpgpusim.config b/configs/tested-cfgs/SM7_QV100_SASS/gpgpusim.config deleted file mode 100644 index 0df3eec..0000000 --- a/configs/tested-cfgs/SM7_QV100_SASS/gpgpusim.config +++ /dev/null @@ -1,206 +0,0 @@ -# This config models the Volta -# For more info about volta architecture: -# http://images.nvidia.com/content/volta-architecture/pdf/volta-architecture-whitepaper.pdf -# https://ieeexplore.ieee.org/stamp/stamp.jsp?tp=&arnumber=8344474&tag=1# -# http://on-demand.gputechconf.com/gtc/2018/presentation/s8122-dissecting-the-volta-gpu-architecture-through-microbenchmarking.pdf -# https://en.wikipedia.org/wiki/Volta_(microarchitecture) -# https://www.hotchips.org/wp-content/uploads/hc_archives/hc29/HC29.21-Monday-Pub/HC29.21.10-GPU-Gaming-Pub/HC29.21.132-Volta-Choquette-NVIDIA-Final3.pdf -# https://devblogs.nvidia.com/inside-volta/ -# http://on-demand.gputechconf.com/gtc/2017/presentation/s7798-luke-durant-inside-volta.pdf - -# functional simulator specification --gpgpu_ptx_instruction_classification 0 --gpgpu_ptx_sim_mode 0 --gpgpu_ptx_force_max_capability 70 - -# Device Limits --gpgpu_stack_size_limit 1024 --gpgpu_heap_size_limit 8388608 --gpgpu_runtime_sync_depth_limit 2 --gpgpu_runtime_pending_launch_count_limit 2048 --gpgpu_kernel_launch_latency 5000 - -# Compute Capability --gpgpu_compute_capability_major 7 --gpgpu_compute_capability_minor 0 - -# SASS trace-driven mode support --trace_driven_mode 1 --gpgpu_ptx_convert_to_ptxplus 0 --gpgpu_ptx_save_converted_ptxplus 0 - -# high level architecture configuration --gpgpu_n_clusters 80 --gpgpu_n_cores_per_cluster 1 --gpgpu_n_mem 32 --gpgpu_n_sub_partition_per_mchannel 2 - -# volta clock domains -#-gpgpu_clock_domains <Core Clock>:<Interconnect Clock>:<L2 Clock>:<DRAM Clock> --gpgpu_clock_domains 1132.0:1132.0:1132.0:850.0 -# boost mode -# -gpgpu_clock_domains 1628.0:1628.0:1628.0:850.0 - -# shader core pipeline config --gpgpu_shader_registers 65536 --gpgpu_registers_per_block 65536 --gpgpu_occupancy_sm_number 70 - -# This implies a maximum of 64 warps/SM --gpgpu_shader_core_pipeline 2048:32 --gpgpu_shader_cta 32 --gpgpu_simd_model 1 - -# Pipeline widths and number of FUs -# ID_OC_SP,ID_OC_DP,ID_OC_INT,ID_OC_SFU,ID_OC_MEM,OC_EX_SP,OC_EX_DP,OC_EX_INT,OC_EX_SFU,OC_EX_MEM,EX_WB,ID_OC_TENSOR_CORE,OC_EX_TENSOR_CORE -## Volta GV100 has 4 SP SIMD units, 4 SFU units, 4 DP units per core, 4 Tensor core units -## we need to scale the number of pipeline registers to be equal to the number of SP units --gpgpu_pipeline_widths 4,4,4,4,4,4,4,4,4,4,8,4,4 --gpgpu_num_sp_units 4 --gpgpu_num_sfu_units 4 --gpgpu_num_dp_units 4 --gpgpu_num_int_units 4 --gpgpu_tensor_core_avail 1 --gpgpu_num_tensor_core_units 4 - -# Instruction latencies and initiation intervals -# "ADD,MAX,MUL,MAD,DIV" -# All Div operations are executed on SFU unit --ptx_opcode_latency_int 4,13,4,5,145 --ptx_opcode_initiation_int 2,2,2,2,8 --ptx_opcode_latency_fp 4,13,4,5,39 --ptx_opcode_initiation_fp 2,2,2,2,4 --ptx_opcode_latency_dp 8,19,8,8,330 --ptx_opcode_initiation_dp 4,4,4,4,130 --ptx_opcode_latency_sfu 100 --ptx_opcode_initiation_sfu 8 --ptx_opcode_latency_tesnor 8 --ptx_opcode_initiation_tensor 4 - -# Volta has sub core model, in which each scheduler has its own register file and EUs -# i.e. schedulers are isolated --sub_core_model 1 -# disable specialized operand collectors and use generic operand collectors instead --enable_specialized_operand_collector 0 --gpgpu_operand_collector_num_units_gen 8 --gpgpu_operand_collector_num_in_ports_gen 8 --gpgpu_operand_collector_num_out_ports_gen 8 -# volta has 8 banks, 4 schedulers, two banks per scheduler -# we increase #banks to 16 to mitigate the effect of Regisrer File Cache (RFC) which we do not implement in the current version --gpgpu_num_reg_banks 16 --gpgpu_reg_file_port_throughput 2 - -# shared memory bankconflict detection --gpgpu_shmem_num_banks 32 --gpgpu_shmem_limited_broadcast 0 --gpgpu_shmem_warp_parts 1 --gpgpu_coalesce_arch 60 - -## In Volta, a warp scheduler can issue 1 inst per cycle --gpgpu_max_insn_issue_per_warp 1 --gpgpu_dual_issue_diff_exec_units 1 - -# Volta has four schedulers per core --gpgpu_num_sched_per_core 4 -# Greedy then oldest scheduler --gpgpu_scheduler gto - -## L1/shared memory configuration -# <nsets>:<bsize>:<assoc>,<rep>:<wr>:<alloc>:<wr_alloc>:<set_index_fn>,<mshr>:<N>:<merge>,<mq>:**<fifo_entry> -# ** Optional parameter - Required when mshr_type==Texture Fifo -# Defualt config is 32KB DL1 and 96KB shared memory -# In Volta, we assign the remaining shared memory to L1 cache -# if the assigned shd mem = 0, then L1 cache = 128KB -# For more info, see https://docs.nvidia.com/cuda/cuda-c-programming-guide/index.html#shared-memory-7-x -# disable this mode in case of multi kernels/apps execution --adaptive_cache_config 1 -# Volta unified cache has four banks --l1_banks 4 --gpgpu_cache:dl1 S:1:128:256,L:L:s:N:L,A:256:8,16:0,32 --gpgpu_shmem_size 98304 --gpgpu_shmem_sizeDefault 98304 --gpgpu_shmem_per_block 65536 --gmem_skip_L1D 0 --icnt_flit_size 40 --gpgpu_n_cluster_ejection_buffer_size 32 --l1_latency 20 --smem_latency 20 --gpgpu_flush_l1_cache 1 - -# 32 sets, each 128 bytes 24-way for each memory sub partition (96 KB per memory sub partition). This gives us 6MB L2 cache --gpgpu_cache:dl2 S:32:128:24,L:B:m:L:L,A:192:4,32:0,32 --gpgpu_cache:dl2_texture_only 0 --gpgpu_dram_partition_queues 64:64:64:64 --perf_sim_memcpy 1 --memory_partition_indexing 2 - -# 128 KB Inst. --gpgpu_cache:il1 N:64:128:16,L:R:f:N:L,S:2:48,4 --inst_fetch_throughput 4 -# 128 KB Tex -# Note, TEX is deprected in Volta, It is used for legacy apps only. Use L1D cache instead with .nc modifier or __ldg mehtod --gpgpu_tex_cache:l1 N:4:128:256,L:R:m:N:L,T:512:8,128:2 -# 64 KB Const --gpgpu_const_cache:l1 N:128:64:8,L:R:f:N:L,S:2:64,4 --perfect_inst_const_cache 1 - -# interconnection -#-network_mode 1 -#-inter_config_file config_volta_islip.icnt -# use built-in local xbar --network_mode 2 --inct_in_buffer_limit 512 --inct_out_buffer_limit 512 --inct_subnets 2 --arbiter_algo 1 - -# memory partition latency config --rop_latency 160 --dram_latency 100 - -# dram model config --gpgpu_dram_scheduler 1 --gpgpu_frfcfs_dram_sched_queue_size 64 --gpgpu_dram_return_queue_size 192 - -# for HBM, three stacks, 24 channles, each (128 bits) 16 bytes width --gpgpu_n_mem_per_ctrlr 1 --gpgpu_dram_buswidth 16 --gpgpu_dram_burst_length 2 --dram_data_command_freq_ratio 2 # HBM is DDR --gpgpu_mem_address_mask 1 --gpgpu_mem_addr_mapping dramid@8;00000000.00000000.00000000.00000000.0000RRRR.RRRRRRRR.RBBBCCCB.CCCSSSSS - -# HBM timing are adopted from hynix JESD235 standered and nVidia HPCA 2017 paper (http://www.cs.utah.edu/~nil/pubs/hpca17.pdf) -# Timing for 1 GHZ -# tRRDl and tWTR are missing, need to be added -#-gpgpu_dram_timing_opt "nbk=16:CCD=1:RRD=4:RCD=14:RAS=33:RP=14:RC=47: -# CL=14:WL=2:CDLR=3:WR=12:nbkgrp=4:CCDL=2:RTPL=4" - -# Timing for 850 MHZ, V100 HBM runs at 850 MHZ --gpgpu_dram_timing_opt "nbk=16:CCD=1:RRD=3:RCD=12:RAS=28:RP=12:RC=40: - CL=12:WL=2:CDLR=3:WR=10:nbkgrp=4:CCDL=2:RTPL=3" - -# HBM has dual bus interface, in which it can issue two col and row commands at a time --dual_bus_interface 1 -# select lower bits for bnkgrp to increase bnkgrp parallelism --dram_bnk_indexing_policy 0 --dram_bnkgrp_indexing_policy 1 - -#-Seperate_Write_Queue_Enable 1 -#-Write_Queue_Size 64:56:32 - -# stat collection --gpgpu_memlatency_stat 14 --gpgpu_runtime_stat 500 --enable_ptx_file_line_stats 1 --visualizer_enabled 0 - -# power model configs, disable it untill we create a real energy model for Volta --power_simulation_enabled 0 - -# tracing functionality -#-trace_enabled 1 -#-trace_components WARP_SCHEDULER,SCOREBOARD -#-trace_sampling_core 0 - diff --git a/configs/tested-cfgs/SM7_TITANV/config_volta_islip.icnt b/configs/tested-cfgs/SM7_TITANV/config_volta_islip.icnt deleted file mode 100644 index 615d0a9..0000000 --- a/configs/tested-cfgs/SM7_TITANV/config_volta_islip.icnt +++ /dev/null @@ -1,74 +0,0 @@ -//21*1 fly with 32 flits per packet under gpgpusim injection mode -use_map = 0; -flit_size = 40; - -// currently we do not use this, see subnets below -network_count = 2; - -// Topology -topology = fly; -k = 88; -n = 1; - -// Routing - -routing_function = dest_tag; - - -// Flow control - -num_vcs = 1; -vc_buf_size = 256; -input_buffer_size = 256; -ejection_buffer_size = 256; -boundary_buffer_size = 256; - -wait_for_tail_credit = 0; - -// Router architecture - -vc_allocator = islip; //separable_input_first; -sw_allocator = islip; //separable_input_first; -alloc_iters = 1; - -credit_delay = 0; -routing_delay = 0; -vc_alloc_delay = 1; -sw_alloc_delay = 1; - -input_speedup = 1; -output_speedup = 1; -internal_speedup = 2.0; - -// Traffic, GPGPU-Sim does not use this - -traffic = uniform; -packet_size ={{1,2,3,4},{10,20}}; -packet_size_rate={{1,1,1,1},{2,1}}; - -// Simulation - Don't change - -sim_type = gpgpusim; -//sim_type = latency; -injection_rate = 0.1; - -subnets = 2; - -// Always use read and write no matter following line -//use_read_write = 1; - - -read_request_subnet = 0; -read_reply_subnet = 1; -write_request_subnet = 0; -write_reply_subnet = 1; - -read_request_begin_vc = 0; -read_request_end_vc = 0; -write_request_begin_vc = 0; -write_request_end_vc = 0; -read_reply_begin_vc = 0; -read_reply_end_vc = 0; -write_reply_begin_vc = 0; -write_reply_end_vc = 0; - diff --git a/configs/tested-cfgs/SM7_TITANV/gpgpusim.config b/configs/tested-cfgs/SM7_TITANV/gpgpusim.config deleted file mode 100644 index 0339b0d..0000000 --- a/configs/tested-cfgs/SM7_TITANV/gpgpusim.config +++ /dev/null @@ -1,205 +0,0 @@ -# This config models the Volta Titan V -# For more info about volta architecture: -# http://images.nvidia.com/content/volta-architecture/pdf/volta-architecture-whitepaper.pdf -# https://ieeexplore.ieee.org/stamp/stamp.jsp?tp=&arnumber=8344474&tag=1# -# http://on-demand.gputechconf.com/gtc/2018/presentation/s8122-dissecting-the-volta-gpu-architecture-through-microbenchmarking.pdf -# https://en.wikipedia.org/wiki/Volta_(microarchitecture) -# https://www.hotchips.org/wp-content/uploads/hc_archives/hc29/HC29.21-Monday-Pub/HC29.21.10-GPU-Gaming-Pub/HC29.21.132-Volta-Choquette-NVIDIA-Final3.pdf -# https://devblogs.nvidia.com/inside-volta/ -# http://on-demand.gputechconf.com/gtc/2017/presentation/s7798-luke-durant-inside-volta.pdf - -# functional simulator specification --gpgpu_ptx_instruction_classification 0 --gpgpu_ptx_sim_mode 0 --gpgpu_ptx_force_max_capability 70 - - -# Device Limits --gpgpu_stack_size_limit 1024 --gpgpu_heap_size_limit 8388608 --gpgpu_runtime_sync_depth_limit 2 --gpgpu_runtime_pending_launch_count_limit 2048 - -# Compute Capability --gpgpu_compute_capability_major 7 --gpgpu_compute_capability_minor 0 - -# SASS execution (only supported with CUDA >= 4.0) --gpgpu_ptx_convert_to_ptxplus 0 --gpgpu_ptx_save_converted_ptxplus 0 - -# high level architecture configuration --gpgpu_n_clusters 40 --gpgpu_n_cores_per_cluster 2 --gpgpu_n_mem 24 --gpgpu_n_sub_partition_per_mchannel 2 - -# volta clock domains -#-gpgpu_clock_domains <Core Clock>:<Interconnect Clock>:<L2 Clock>:<DRAM Clock> -# Volta NVIDIA TITANV clock domains are adopted from -# https://en.wikipedia.org/wiki/Volta_(microarchitecture) --gpgpu_clock_domains 1200.0:1200.0:1200.0:850.0 -# boost mode -# -gpgpu_clock_domains 1455.0:1455.0:1455.0:850.0 - -# shader core pipeline config --gpgpu_shader_registers 65536 --gpgpu_registers_per_block 65536 --gpgpu_occupancy_sm_number 70 - -# This implies a maximum of 64 warps/SM --gpgpu_shader_core_pipeline 2048:32 --gpgpu_shader_cta 32 --gpgpu_simd_model 1 - -# Pipeline widths and number of FUs -# ID_OC_SP,ID_OC_DP,ID_OC_INT,ID_OC_SFU,ID_OC_MEM,OC_EX_SP,OC_EX_DP,OC_EX_INT,OC_EX_SFU,OC_EX_MEM,EX_WB,ID_OC_TENSOR_CORE,OC_EX_TENSOR_CORE -## Volta TITANV has 4 SP SIMD units, 4 INT units, 4 SFU units, 4 DP units per core, 4 Tensor core units -## we need to scale the number of pipeline registers to be equal to the number of SP units --gpgpu_pipeline_widths 4,4,4,4,4,4,4,4,4,4,8,4,4 --gpgpu_num_sp_units 4 --gpgpu_num_sfu_units 4 --gpgpu_num_dp_units 4 --gpgpu_num_int_units 4 --gpgpu_tensor_core_avail 1 --gpgpu_num_tensor_core_units 4 - -# Instruction latencies and initiation intervals -# "ADD,MAX,MUL,MAD,DIV" -# All Div operations are executed on SFU unit -# Throughput (initiation latency) are adopted from -# http://on-demand.gputechconf.com/gtc/2018/presentation/s8122-dissecting-the-volta-gpu-architecture-through-microbenchmarking.pdf --ptx_opcode_latency_int 4,13,4,5,145 --ptx_opcode_initiation_int 2,2,2,2,8 --ptx_opcode_latency_fp 4,13,4,5,39 --ptx_opcode_initiation_fp 2,2,2,2,4 --ptx_opcode_latency_dp 8,19,8,8,330 --ptx_opcode_initiation_dp 4,4,4,4,130 --ptx_opcode_latency_sfu 100 --ptx_opcode_initiation_sfu 8 --ptx_opcode_latency_tesnor 64 --ptx_opcode_initiation_tensor 64 - -# <nsets>:<bsize>:<assoc>,<rep>:<wr>:<alloc>:<wr_alloc>:<set_index_fn>,<mshr>:<N>:<merge>,<mq>:**<fifo_entry> -# ** Optional parameter - Required when mshr_type==Texture Fifo -# Defualt config is 32KB DL1 and 96KB shared memory -# In Volta, we assign the remaining shared memory to L1 cache -# if the assigned shd mem = 0, then L1 cache = 128KB -# For more info, see https://docs.nvidia.com/cuda/cuda-c-programming-guide/index.html#shared-memory-7-x -# disable this mode in case of multi kernels/apps execution --adaptive_cache_config 1 -# Volta unified cache has four banks --l1_banks 4 -#-mem_unit_ports 4 --gpgpu_cache:dl1 S:1:128:256,L:L:s:N:L,A:256:8,16:0,32 --gpgpu_shmem_size 98304 --gpgpu_shmem_sizeDefault 98304 --gpgpu_shmem_per_block 65536 --gmem_skip_L1D 0 --icnt_flit_size 40 --gpgpu_n_cluster_ejection_buffer_size 32 --l1_latency 20 --smem_latency 20 --gpgpu_flush_l1_cache 1 - -# 32 sets, each 128 bytes 24-way for each memory sub partition (96 KB per memory sub partition). This gives us 4.5MB L2 cache --gpgpu_cache:dl2 S:32:128:24,L:B:m:L:L,A:192:4,32:0,32 --gpgpu_cache:dl2_texture_only 0 --gpgpu_dram_partition_queues 64:64:64:64 --perf_sim_memcpy 1 --memory_partition_indexing 4 - -# 128 KB Inst. --gpgpu_cache:il1 N:64:128:16,L:R:f:N:L,S:2:48,4 -# 48 KB Tex -# Note, TEX is deprected in Volta, It is used for legacy apps only. Use L1D cache instead with .nc modifier or __ldg mehtod --gpgpu_tex_cache:l1 N:4:128:256,L:R:m:N:L,T:512:8,128:2 -# 64 KB Const --gpgpu_const_cache:l1 N:128:64:8,L:R:f:N:L,S:2:64,4 - -# Volta has sub core model, in which each scheduler has its own register file and EUs -# i.e. schedulers are isolated --sub_core_model 1 -# disable specialized operand collectors and use generic operand collectors instead --enable_specialized_operand_collector 0 --gpgpu_operand_collector_num_units_gen 8 --gpgpu_operand_collector_num_in_ports_gen 8 --gpgpu_operand_collector_num_out_ports_gen 8 -# volta has 8 banks, 4 schedulers, two banks per scheduler --gpgpu_num_reg_banks 8 - -# shared memory bankconflict detection --gpgpu_shmem_num_banks 32 --gpgpu_shmem_limited_broadcast 0 --gpgpu_shmem_warp_parts 1 --gpgpu_coalesce_arch 60 - -## In Volta, a warp scheduler can issue 1 inst per cycle --gpgpu_max_insn_issue_per_warp 1 --gpgpu_dual_issue_diff_exec_units 1 - -# interconnection --network_mode 1 --inter_config_file config_volta_islip.icnt -# for local xbar, use: -# "-network_mode 2 -inct_in_buffer_limit 512 -inct_out_buffer_limit 512 -inct_subnets 2" - -# memory partition latency config --rop_latency 160 --dram_latency 100 - -# dram model config --gpgpu_dram_scheduler 1 --gpgpu_frfcfs_dram_sched_queue_size 64 --gpgpu_dram_return_queue_size 192 - -# for HBM, three stacks, 24 channles, each (128 bits) 16 bytes width --gpgpu_n_mem_per_ctrlr 1 --gpgpu_dram_buswidth 16 --gpgpu_dram_burst_length 2 --dram_data_command_freq_ratio 2 # HBM is DDR --gpgpu_mem_address_mask 1 --gpgpu_mem_addr_mapping dramid@8;00000000.00000000.00000000.00000000.0000RRRR.RRRRRRRR.RBBBCCCB.CCCSSSSS - -# HBM timing are adopted from hynix JESD235 standered and nVidia HPCA 2017 paper (http://www.cs.utah.edu/~nil/pubs/hpca17.pdf) -# Timing for 1 GHZ -# tRRDl and tWTR are missing, need to be added -#-gpgpu_dram_timing_opt "nbk=16:CCD=1:RRD=4:RCD=14:RAS=33:RP=14:RC=47: -# CL=14:WL=2:CDLR=3:WR=12:nbkgrp=4:CCDL=2:RTPL=4" - -# Timing for 850 MHZ, TITANV HBM runs at 850 MHZ --gpgpu_dram_timing_opt "nbk=16:CCD=1:RRD=3:RCD=12:RAS=28:RP=12:RC=40: - CL=12:WL=2:CDLR=3:WR=10:nbkgrp=4:CCDL=2:RTPL=3" - -# HBM has dual bus interface, in which it can issue two col and row commands at a time --dual_bus_interface 1 -# select lower bits for bnkgrp to increase bnkgrp parallelism --dram_bnk_indexing_policy 0 --dram_bnkgrp_indexing_policy 1 - -#-Seperate_Write_Queue_Enable 1 -#-Write_Queue_Size 64:56:32 - -# Volta has four schedulers per core --gpgpu_num_sched_per_core 4 -# Two Level Scheduler with active and pending pools -#-gpgpu_scheduler two_level_active:6:0:1 -# Loose round robbin scheduler -#-gpgpu_scheduler lrr -# Greedy then oldest scheduler --gpgpu_scheduler gto - -# stat collection --gpgpu_memlatency_stat 14 --gpgpu_runtime_stat 500 --enable_ptx_file_line_stats 1 --visualizer_enabled 0 - -# power model configs, disable it untill we create a real energy model for Volta --power_simulation_enabled 0 - -# tracing functionality -#-trace_enabled 1 -#-trace_components WARP_SCHEDULER,SCOREBOARD -#-trace_sampling_core 0 - |
