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authorMahmoud <[email protected]>2018-10-10 20:58:14 -0400
committerMahmoud <[email protected]>2018-10-10 20:58:14 -0400
commit6f345dd40ed6c73eefec2a52858ce62f72a6fa25 (patch)
treef705b7e971bd1a621046a657eda5e92f127aee4e /configs
parentfcaf5f1217e7349e2239f51a7bce1fad13df920c (diff)
adding some new inct config files and delete oterhs
Diffstat (limited to 'configs')
-rw-r--r--configs/4.x-cfgs/SM6_TITANX/1Xintes.icnt73
-rw-r--r--configs/4.x-cfgs/SM6_TITANX/1Xintes_LB.icnt (renamed from configs/4.x-cfgs/SM6_TITANX_1Xintes_LB/config_fermi_islip.icnt)0
-rw-r--r--configs/4.x-cfgs/SM6_TITANX_1Xintes/gpgpusim.config184
-rw-r--r--configs/4.x-cfgs/SM6_TITANX_1Xintes_LB/gpgpusim.config184
-rw-r--r--configs/4.x-cfgs/SM7_TITANV/.icnt (renamed from configs/4.x-cfgs/SM7_TITANV_1Xicnt/config_fermi_islip.icnt)0
-rw-r--r--configs/4.x-cfgs/SM7_TITANV/1Xintes.icnt (renamed from configs/4.x-cfgs/SM7_TITANV_1Xicnt_1Xintes/config_fermi_islip.icnt)0
-rw-r--r--configs/4.x-cfgs/SM7_TITANV/1Xintes_LB.icnt (renamed from configs/4.x-cfgs/SM7_TITANV_1Xicnt_1Xintes_LB/config_fermi_islip.icnt)0
-rw-r--r--configs/4.x-cfgs/SM7_TITANV_1Xicnt/gpgpusim.config191
-rw-r--r--configs/4.x-cfgs/SM7_TITANV_1Xicnt_1Xintes/gpgpusim.config191
-rw-r--r--configs/4.x-cfgs/SM7_TITANV_1Xicnt_1Xintes_LB/gpgpusim.config191
10 files changed, 73 insertions, 941 deletions
diff --git a/configs/4.x-cfgs/SM6_TITANX/1Xintes.icnt b/configs/4.x-cfgs/SM6_TITANX/1Xintes.icnt
new file mode 100644
index 0000000..85ac0d7
--- /dev/null
+++ b/configs/4.x-cfgs/SM6_TITANX/1Xintes.icnt
@@ -0,0 +1,73 @@
+//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 = 52;
+n = 1;
+
+// Routing
+
+routing_function = dest_tag;
+
+// Flow control
+
+num_vcs = 1;
+vc_buf_size = 64;
+input_buffer_size = 256;
+ejection_buffer_size = 64;
+boundary_buffer_size = 64;
+
+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 = 1.0;
+
+// 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/4.x-cfgs/SM6_TITANX_1Xintes_LB/config_fermi_islip.icnt b/configs/4.x-cfgs/SM6_TITANX/1Xintes_LB.icnt
index d4e3467..d4e3467 100644
--- a/configs/4.x-cfgs/SM6_TITANX_1Xintes_LB/config_fermi_islip.icnt
+++ b/configs/4.x-cfgs/SM6_TITANX/1Xintes_LB.icnt
diff --git a/configs/4.x-cfgs/SM6_TITANX_1Xintes/gpgpusim.config b/configs/4.x-cfgs/SM6_TITANX_1Xintes/gpgpusim.config
deleted file mode 100644
index cc7419c..0000000
--- a/configs/4.x-cfgs/SM6_TITANX_1Xintes/gpgpusim.config
+++ /dev/null
@@ -1,184 +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
-
-# 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
-
-# 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_SFU,ID_OC_MEM,OC_EX_SP,OC_EX_DP,OC_EX_SFU,OC_EX_MEM,EX_WB
-## Pascal GP102 has 4 SP SIMD units and 4 SFU units
-## we need to scale the number of pipeline registers to be equal to the number of SP units
--gpgpu_pipeline_widths 2,1,2,1,2,1,2,1,5
--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_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 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 Volta, 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_fermi_islip.icnt
-
-# memory partition latency config
--rop_latency 120
--dram_latency 100
-
-# dram model config
--gpgpu_dram_scheduler 1
-# The DRAM return queue and the scheduler queue together should provide buffer
-# to sustain the memory level parallelism to tolerate DRAM latency
-# To allow 100% DRAM utility, there should at least be enough buffer to sustain
-# the minimum DRAM latency (100 core cycles). I.e.
-# Total buffer space required = 100 x 924MHz / 700MHz = 132
--gpgpu_frfcfs_dram_sched_queue_size 64
--gpgpu_dram_return_queue_size 240
-
-# 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
--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
--gpuwattch_xml_file gpuwattch_gtx480.xml
-
-# tracing functionality
-#-trace_enabled 1
-#-trace_components WARP_SCHEDULER,SCOREBOARD
-#-trace_sampling_core 0
-
diff --git a/configs/4.x-cfgs/SM6_TITANX_1Xintes_LB/gpgpusim.config b/configs/4.x-cfgs/SM6_TITANX_1Xintes_LB/gpgpusim.config
deleted file mode 100644
index cc7419c..0000000
--- a/configs/4.x-cfgs/SM6_TITANX_1Xintes_LB/gpgpusim.config
+++ /dev/null
@@ -1,184 +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
-
-# 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
-
-# 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_SFU,ID_OC_MEM,OC_EX_SP,OC_EX_DP,OC_EX_SFU,OC_EX_MEM,EX_WB
-## Pascal GP102 has 4 SP SIMD units and 4 SFU units
-## we need to scale the number of pipeline registers to be equal to the number of SP units
--gpgpu_pipeline_widths 2,1,2,1,2,1,2,1,5
--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_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 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 Volta, 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_fermi_islip.icnt
-
-# memory partition latency config
--rop_latency 120
--dram_latency 100
-
-# dram model config
--gpgpu_dram_scheduler 1
-# The DRAM return queue and the scheduler queue together should provide buffer
-# to sustain the memory level parallelism to tolerate DRAM latency
-# To allow 100% DRAM utility, there should at least be enough buffer to sustain
-# the minimum DRAM latency (100 core cycles). I.e.
-# Total buffer space required = 100 x 924MHz / 700MHz = 132
--gpgpu_frfcfs_dram_sched_queue_size 64
--gpgpu_dram_return_queue_size 240
-
-# 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
--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
--gpuwattch_xml_file gpuwattch_gtx480.xml
-
-# tracing functionality
-#-trace_enabled 1
-#-trace_components WARP_SCHEDULER,SCOREBOARD
-#-trace_sampling_core 0
-
diff --git a/configs/4.x-cfgs/SM7_TITANV_1Xicnt/config_fermi_islip.icnt b/configs/4.x-cfgs/SM7_TITANV/.icnt
index 2f25889..2f25889 100644
--- a/configs/4.x-cfgs/SM7_TITANV_1Xicnt/config_fermi_islip.icnt
+++ b/configs/4.x-cfgs/SM7_TITANV/.icnt
diff --git a/configs/4.x-cfgs/SM7_TITANV_1Xicnt_1Xintes/config_fermi_islip.icnt b/configs/4.x-cfgs/SM7_TITANV/1Xintes.icnt
index fca9ffe..fca9ffe 100644
--- a/configs/4.x-cfgs/SM7_TITANV_1Xicnt_1Xintes/config_fermi_islip.icnt
+++ b/configs/4.x-cfgs/SM7_TITANV/1Xintes.icnt
diff --git a/configs/4.x-cfgs/SM7_TITANV_1Xicnt_1Xintes_LB/config_fermi_islip.icnt b/configs/4.x-cfgs/SM7_TITANV/1Xintes_LB.icnt
index c6badd3..c6badd3 100644
--- a/configs/4.x-cfgs/SM7_TITANV_1Xicnt_1Xintes_LB/config_fermi_islip.icnt
+++ b/configs/4.x-cfgs/SM7_TITANV/1Xintes_LB.icnt
diff --git a/configs/4.x-cfgs/SM7_TITANV_1Xicnt/gpgpusim.config b/configs/4.x-cfgs/SM7_TITANV_1Xicnt/gpgpusim.config
deleted file mode 100644
index a25e329..0000000
--- a/configs/4.x-cfgs/SM7_TITANV_1Xicnt/gpgpusim.config
+++ /dev/null
@@ -1,191 +0,0 @@
-# This config models the Volta Titan X
-# For more info about this card:
-# 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
-
-# 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 1
-
-# volta clock domains
-#-gpgpu_clock_domains <Core Clock>:<Interconnect Clock>:<L2 Clock>:<DRAM Clock>
-# Volta NVIDIA GV100 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 1455.0:2000.0:1455.0:850.0
-
-# shader core pipeline config
--gpgpu_shader_registers 65536
-
-# 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_SFU,ID_OC_MEM,OC_EX_SP,OC_EX_DP,OC_EX_SFU,OC_EX_MEM,EX_WB
-## Volta GV100 has 2 SP SIMD units, 2 SFU units, 2 DP units per core
-## we need to scale the number of pipeline registers to be equal to the number of SP units
--gpgpu_pipeline_widths 4,4,4,1,4,4,4,1,12
--gpgpu_num_sp_units 4
--gpgpu_num_sfu_units 4
--gpgpu_num_dp_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
-
-
-# <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
--adpative_volta_cache_config 1
--gpgpu_cache:dl1 S:4:128:64,L:L:s:N:L,A:256:8,16:0,32
--gpgpu_shmem_size 98304
--gmem_skip_L1D 0
--icnt_flit_size 40
--gpgpu_n_cluster_ejection_buffer_size 32
--l1_latency 28
--smem_latency 19
--gpgpu_flush_l1_cache 1
--adpative_volta_cache_config 1
-
-# 64 sets, each 128 bytes 24-way for each memory sub partition (192 KB per memory sub partition). This gives 4.5MB L2 cache
--gpgpu_cache:dl2 S:64:128:24,L:B:m:L:L,A:384:4,32:0,32
--gpgpu_cache:dl2_texture_only 0
--gpgpu_dram_partition_queues 64:64:64:64
--perf_sim_memcpy 0
-
-# 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:16:128:24,L:R:m:N:L,T:128:4,128:2
-# 64 KB Const
--gpgpu_const_cache:l1 N:128:64:8,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 4
--gpgpu_operand_collector_num_out_ports_sp 4
--gpgpu_operand_collector_num_in_ports_sfu 1
--gpgpu_operand_collector_num_out_ports_sfu 1
--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
--gpgpu_coalesce_arch 60
-
-## In Pascal, a warp scheduler can issue 2 insts per cycle using 2 diff execution units
--gpgpu_max_insn_issue_per_warp 1
--gpgpu_dual_issue_diff_exec_units 1
-
-# interconnection
--network_mode 1
--inter_config_file config_fermi_islip.icnt
-
-# memory partition latency config
--rop_latency 120
--dram_latency 100
-
-# dram model config
--gpgpu_dram_scheduler 1
-# The DRAM return queue and the scheduler queue together should provide buffer
-# to sustain the memory level parallelism to tolerate DRAM latency
-# To allow 100% DRAM utility, there should at least be enough buffer to sustain
-# the minimum DRAM latency (100 core cycles). I.e.
-# Total buffer space required = 100 x 924MHz / 700MHz = 132
--gpgpu_frfcfs_dram_sched_queue_size 64
--gpgpu_dram_return_queue_size 192
-
-# for HBM, 32 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.RBBBBCCC.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 715 MHZ, Tesla Volta V100 HBM runs at 715 MHZ
--gpgpu_dram_timing_opt "nbk=16:CCD=1:RRD=3:RCD=10:RAS=24:RP=10:RC=34:
- CL=10:WL=2:CDLR=3:WR=9: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
-
-# Pascal has two 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 Pascal 100
--power_simulation_enabled 0
--gpuwattch_xml_file gpuwattch_gtx480.xml
-
-# tracing functionality
-#-trace_enabled 1
-#-trace_components WARP_SCHEDULER,SCOREBOARD
-#-trace_sampling_core 0
-
diff --git a/configs/4.x-cfgs/SM7_TITANV_1Xicnt_1Xintes/gpgpusim.config b/configs/4.x-cfgs/SM7_TITANV_1Xicnt_1Xintes/gpgpusim.config
deleted file mode 100644
index a25e329..0000000
--- a/configs/4.x-cfgs/SM7_TITANV_1Xicnt_1Xintes/gpgpusim.config
+++ /dev/null
@@ -1,191 +0,0 @@
-# This config models the Volta Titan X
-# For more info about this card:
-# 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
-
-# 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 1
-
-# volta clock domains
-#-gpgpu_clock_domains <Core Clock>:<Interconnect Clock>:<L2 Clock>:<DRAM Clock>
-# Volta NVIDIA GV100 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 1455.0:2000.0:1455.0:850.0
-
-# shader core pipeline config
--gpgpu_shader_registers 65536
-
-# 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_SFU,ID_OC_MEM,OC_EX_SP,OC_EX_DP,OC_EX_SFU,OC_EX_MEM,EX_WB
-## Volta GV100 has 2 SP SIMD units, 2 SFU units, 2 DP units per core
-## we need to scale the number of pipeline registers to be equal to the number of SP units
--gpgpu_pipeline_widths 4,4,4,1,4,4,4,1,12
--gpgpu_num_sp_units 4
--gpgpu_num_sfu_units 4
--gpgpu_num_dp_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
-
-
-# <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
--adpative_volta_cache_config 1
--gpgpu_cache:dl1 S:4:128:64,L:L:s:N:L,A:256:8,16:0,32
--gpgpu_shmem_size 98304
--gmem_skip_L1D 0
--icnt_flit_size 40
--gpgpu_n_cluster_ejection_buffer_size 32
--l1_latency 28
--smem_latency 19
--gpgpu_flush_l1_cache 1
--adpative_volta_cache_config 1
-
-# 64 sets, each 128 bytes 24-way for each memory sub partition (192 KB per memory sub partition). This gives 4.5MB L2 cache
--gpgpu_cache:dl2 S:64:128:24,L:B:m:L:L,A:384:4,32:0,32
--gpgpu_cache:dl2_texture_only 0
--gpgpu_dram_partition_queues 64:64:64:64
--perf_sim_memcpy 0
-
-# 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:16:128:24,L:R:m:N:L,T:128:4,128:2
-# 64 KB Const
--gpgpu_const_cache:l1 N:128:64:8,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 4
--gpgpu_operand_collector_num_out_ports_sp 4
--gpgpu_operand_collector_num_in_ports_sfu 1
--gpgpu_operand_collector_num_out_ports_sfu 1
--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
--gpgpu_coalesce_arch 60
-
-## In Pascal, a warp scheduler can issue 2 insts per cycle using 2 diff execution units
--gpgpu_max_insn_issue_per_warp 1
--gpgpu_dual_issue_diff_exec_units 1
-
-# interconnection
--network_mode 1
--inter_config_file config_fermi_islip.icnt
-
-# memory partition latency config
--rop_latency 120
--dram_latency 100
-
-# dram model config
--gpgpu_dram_scheduler 1
-# The DRAM return queue and the scheduler queue together should provide buffer
-# to sustain the memory level parallelism to tolerate DRAM latency
-# To allow 100% DRAM utility, there should at least be enough buffer to sustain
-# the minimum DRAM latency (100 core cycles). I.e.
-# Total buffer space required = 100 x 924MHz / 700MHz = 132
--gpgpu_frfcfs_dram_sched_queue_size 64
--gpgpu_dram_return_queue_size 192
-
-# for HBM, 32 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.RBBBBCCC.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 715 MHZ, Tesla Volta V100 HBM runs at 715 MHZ
--gpgpu_dram_timing_opt "nbk=16:CCD=1:RRD=3:RCD=10:RAS=24:RP=10:RC=34:
- CL=10:WL=2:CDLR=3:WR=9: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
-
-# Pascal has two 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 Pascal 100
--power_simulation_enabled 0
--gpuwattch_xml_file gpuwattch_gtx480.xml
-
-# tracing functionality
-#-trace_enabled 1
-#-trace_components WARP_SCHEDULER,SCOREBOARD
-#-trace_sampling_core 0
-
diff --git a/configs/4.x-cfgs/SM7_TITANV_1Xicnt_1Xintes_LB/gpgpusim.config b/configs/4.x-cfgs/SM7_TITANV_1Xicnt_1Xintes_LB/gpgpusim.config
deleted file mode 100644
index a25e329..0000000
--- a/configs/4.x-cfgs/SM7_TITANV_1Xicnt_1Xintes_LB/gpgpusim.config
+++ /dev/null
@@ -1,191 +0,0 @@
-# This config models the Volta Titan X
-# For more info about this card:
-# 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
-
-# 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 1
-
-# volta clock domains
-#-gpgpu_clock_domains <Core Clock>:<Interconnect Clock>:<L2 Clock>:<DRAM Clock>
-# Volta NVIDIA GV100 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 1455.0:2000.0:1455.0:850.0
-
-# shader core pipeline config
--gpgpu_shader_registers 65536
-
-# 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_SFU,ID_OC_MEM,OC_EX_SP,OC_EX_DP,OC_EX_SFU,OC_EX_MEM,EX_WB
-## Volta GV100 has 2 SP SIMD units, 2 SFU units, 2 DP units per core
-## we need to scale the number of pipeline registers to be equal to the number of SP units
--gpgpu_pipeline_widths 4,4,4,1,4,4,4,1,12
--gpgpu_num_sp_units 4
--gpgpu_num_sfu_units 4
--gpgpu_num_dp_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
-
-
-# <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
--adpative_volta_cache_config 1
--gpgpu_cache:dl1 S:4:128:64,L:L:s:N:L,A:256:8,16:0,32
--gpgpu_shmem_size 98304
--gmem_skip_L1D 0
--icnt_flit_size 40
--gpgpu_n_cluster_ejection_buffer_size 32
--l1_latency 28
--smem_latency 19
--gpgpu_flush_l1_cache 1
--adpative_volta_cache_config 1
-
-# 64 sets, each 128 bytes 24-way for each memory sub partition (192 KB per memory sub partition). This gives 4.5MB L2 cache
--gpgpu_cache:dl2 S:64:128:24,L:B:m:L:L,A:384:4,32:0,32
--gpgpu_cache:dl2_texture_only 0
--gpgpu_dram_partition_queues 64:64:64:64
--perf_sim_memcpy 0
-
-# 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:16:128:24,L:R:m:N:L,T:128:4,128:2
-# 64 KB Const
--gpgpu_const_cache:l1 N:128:64:8,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 4
--gpgpu_operand_collector_num_out_ports_sp 4
--gpgpu_operand_collector_num_in_ports_sfu 1
--gpgpu_operand_collector_num_out_ports_sfu 1
--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
--gpgpu_coalesce_arch 60
-
-## In Pascal, a warp scheduler can issue 2 insts per cycle using 2 diff execution units
--gpgpu_max_insn_issue_per_warp 1
--gpgpu_dual_issue_diff_exec_units 1
-
-# interconnection
--network_mode 1
--inter_config_file config_fermi_islip.icnt
-
-# memory partition latency config
--rop_latency 120
--dram_latency 100
-
-# dram model config
--gpgpu_dram_scheduler 1
-# The DRAM return queue and the scheduler queue together should provide buffer
-# to sustain the memory level parallelism to tolerate DRAM latency
-# To allow 100% DRAM utility, there should at least be enough buffer to sustain
-# the minimum DRAM latency (100 core cycles). I.e.
-# Total buffer space required = 100 x 924MHz / 700MHz = 132
--gpgpu_frfcfs_dram_sched_queue_size 64
--gpgpu_dram_return_queue_size 192
-
-# for HBM, 32 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.RBBBBCCC.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 715 MHZ, Tesla Volta V100 HBM runs at 715 MHZ
--gpgpu_dram_timing_opt "nbk=16:CCD=1:RRD=3:RCD=10:RAS=24:RP=10:RC=34:
- CL=10:WL=2:CDLR=3:WR=9: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
-
-# Pascal has two 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 Pascal 100
--power_simulation_enabled 0
--gpuwattch_xml_file gpuwattch_gtx480.xml
-
-# tracing functionality
-#-trace_enabled 1
-#-trace_components WARP_SCHEDULER,SCOREBOARD
-#-trace_sampling_core 0
-