255 lines
9.6 KiB
INI
255 lines
9.6 KiB
INI
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# Cache size
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//-size (bytes) 2048
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//-size (bytes) 4096
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//-size (bytes) 32768
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//-size (bytes) 131072
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//-size (bytes) 262144
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//-size (bytes) 1048576
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//-size (bytes) 2097152
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//-size (bytes) 4194304
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-size (bytes) 8388608
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//-size (bytes) 16777216
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//-size (bytes) 33554432
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//-size (bytes) 134217728
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//-size (bytes) 67108864
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//-size (bytes) 1073741824
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# power gating
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-Array Power Gating - "false"
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-WL Power Gating - "false"
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-CL Power Gating - "false"
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-Bitline floating - "false"
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-Interconnect Power Gating - "false"
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-Power Gating Performance Loss 0.01
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# Line size
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//-block size (bytes) 8
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-block size (bytes) 64
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# To model Fully Associative cache, set associativity to zero
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//-associativity 0
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//-associativity 2
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//-associativity 4
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//-associativity 8
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-associativity 8
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-read-write port 1
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-exclusive read port 0
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-exclusive write port 0
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-single ended read ports 0
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# Multiple banks connected using a bus
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-UCA bank count 1
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-technology (u) 0.022
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//-technology (u) 0.040
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//-technology (u) 0.032
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//-technology (u) 0.090
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# following three parameters are meaningful only for main memories
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-page size (bits) 8192
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-burst length 8
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-internal prefetch width 8
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# following parameter can have one of five values -- (itrs-hp, itrs-lstp, itrs-lop, lp-dram, comm-dram)
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-Data array cell type - "itrs-hp"
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//-Data array cell type - "itrs-lstp"
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//-Data array cell type - "itrs-lop"
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# following parameter can have one of three values -- (itrs-hp, itrs-lstp, itrs-lop)
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-Data array peripheral type - "itrs-hp"
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//-Data array peripheral type - "itrs-lstp"
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//-Data array peripheral type - "itrs-lop"
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# following parameter can have one of five values -- (itrs-hp, itrs-lstp, itrs-lop, lp-dram, comm-dram)
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-Tag array cell type - "itrs-hp"
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//-Tag array cell type - "itrs-lstp"
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//-Tag array cell type - "itrs-lop"
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# following parameter can have one of three values -- (itrs-hp, itrs-lstp, itrs-lop)
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-Tag array peripheral type - "itrs-hp"
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//-Tag array peripheral type - "itrs-lstp"
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//-Tag array peripheral type - "itrs-lop
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# Bus width include data bits and address bits required by the decoder
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//-output/input bus width 16
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-output/input bus width 512
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// 300-400 in steps of 10
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-operating temperature (K) 360
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# Type of memory - cache (with a tag array) or ram (scratch ram similar to a register file)
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# or main memory (no tag array and every access will happen at a page granularity Ref: CACTI 5.3 report)
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-cache type "cache"
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//-cache type "ram"
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//-cache type "main memory"
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# to model special structure like branch target buffers, directory, etc.
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# change the tag size parameter
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# if you want cacti to calculate the tagbits, set the tag size to "default"
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-tag size (b) "default"
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//-tag size (b) 22
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# fast - data and tag access happen in parallel
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# sequential - data array is accessed after accessing the tag array
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# normal - data array lookup and tag access happen in parallel
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# final data block is broadcasted in data array h-tree
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# after getting the signal from the tag array
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//-access mode (normal, sequential, fast) - "fast"
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-access mode (normal, sequential, fast) - "normal"
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//-access mode (normal, sequential, fast) - "sequential"
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# DESIGN OBJECTIVE for UCA (or banks in NUCA)
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-design objective (weight delay, dynamic power, leakage power, cycle time, area) 0:0:0:100:0
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# Percentage deviation from the minimum value
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# Ex: A deviation value of 10:1000:1000:1000:1000 will try to find an organization
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# that compromises at most 10% delay.
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# NOTE: Try reasonable values for % deviation. Inconsistent deviation
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# percentage values will not produce any valid organizations. For example,
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# 0:0:100:100:100 will try to identify an organization that has both
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# least delay and dynamic power. Since such an organization is not possible, CACTI will
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# throw an error. Refer CACTI-6 Technical report for more details
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-deviate (delay, dynamic power, leakage power, cycle time, area) 20:100000:100000:100000:100000
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# Objective for NUCA
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-NUCAdesign objective (weight delay, dynamic power, leakage power, cycle time, area) 100:100:0:0:100
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-NUCAdeviate (delay, dynamic power, leakage power, cycle time, area) 10:10000:10000:10000:10000
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# Set optimize tag to ED or ED^2 to obtain a cache configuration optimized for
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# energy-delay or energy-delay sq. product
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# Note: Optimize tag will disable weight or deviate values mentioned above
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# Set it to NONE to let weight and deviate values determine the
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# appropriate cache configuration
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//-Optimize ED or ED^2 (ED, ED^2, NONE): "ED"
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-Optimize ED or ED^2 (ED, ED^2, NONE): "ED^2"
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//-Optimize ED or ED^2 (ED, ED^2, NONE): "NONE"
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-Cache model (NUCA, UCA) - "UCA"
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//-Cache model (NUCA, UCA) - "NUCA"
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# In order for CACTI to find the optimal NUCA bank value the following
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# variable should be assigned 0.
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-NUCA bank count 0
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# NOTE: for nuca network frequency is set to a default value of
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# 5GHz in time.c. CACTI automatically
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# calculates the maximum possible frequency and downgrades this value if necessary
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# By default CACTI considers both full-swing and low-swing
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# wires to find an optimal configuration. However, it is possible to
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# restrict the search space by changing the signaling from "default" to
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# "fullswing" or "lowswing" type.
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-Wire signaling (fullswing, lowswing, default) - "Global_30"
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//-Wire signaling (fullswing, lowswing, default) - "default"
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//-Wire signaling (fullswing, lowswing, default) - "lowswing"
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//-Wire inside mat - "global"
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-Wire inside mat - "semi-global"
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//-Wire outside mat - "global"
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-Wire outside mat - "semi-global"
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-Interconnect projection - "conservative"
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//-Interconnect projection - "aggressive"
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# Contention in network (which is a function of core count and cache level) is one of
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# the critical factor used for deciding the optimal bank count value
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# core count can be 4, 8, or 16
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//-Core count 4
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-Core count 8
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//-Core count 16
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-Cache level (L2/L3) - "L3"
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-Add ECC - "true"
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//-Print level (DETAILED, CONCISE) - "CONCISE"
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-Print level (DETAILED, CONCISE) - "DETAILED"
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# for debugging
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//-Print input parameters - "true"
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-Print input parameters - "false"
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# force CACTI to model the cache with the
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# following Ndbl, Ndwl, Nspd, Ndsam,
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# and Ndcm values
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//-Force cache config - "true"
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-Force cache config - "false"
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-Ndwl 1
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-Ndbl 1
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-Nspd 0
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-Ndcm 1
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-Ndsam1 0
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-Ndsam2 0
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#### Default CONFIGURATION values for baseline external IO parameters to DRAM. More details can be found in the CACTI-IO technical report (), especially Chapters 2 and 3.
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# Memory Type (D=DDR3, L=LPDDR2, W=WideIO). Additional memory types can be defined by the user in extio_technology.cc, along with their technology and configuration parameters.
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//-dram_type "D"
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-dram_type "L"
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//-dram_type "W"
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//-dram_type "S"
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# Memory State (R=Read, W=Write, I=Idle or S=Sleep)
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//-iostate "R"
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-iostate "W"
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//-iostate "I"
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//-iostate "S"
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#Address bus timing. To alleviate the timing on the command and address bus due to high loading (shared across all memories on the channel), the interface allows for multi-cycle timing options.
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-addr_timing 0.5 //DDR
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//-addr_timing 1.0 //SDR (half of DQ rate)
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//-addr_timing 2.0 //2T timing (One fourth of DQ rate)
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//-addr_timing 3.0 // 3T timing (One sixth of DQ rate)
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# Memory Density (Gbit per memory/DRAM die)
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-mem_density 8 Gb //Valid values 2^n Gb
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# IO frequency (MHz) (frequency of the external memory interface).
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-bus_freq 533 MHz //As of current memory standards (2013), valid range 0 to 1.5 GHz for DDR3, 0 to 533 MHz for LPDDR2, 0 - 800 MHz for WideIO and 0 - 3 GHz for Low-swing differential. However this can change, and the user is free to define valid ranges based on new memory types or extending beyond existing standards for existing dram types.
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# Duty Cycle (fraction of time in the Memory State defined above)
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-duty_cycle 1.0 //Valid range 0 to 1.0
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# Activity factor for Data (0->1 transitions) per cycle (for DDR, need to account for the higher activity in this parameter. E.g. max. activity factor for DDR is 1.0, for SDR is 0.5)
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-activity_dq 1.0 //Valid range 0 to 1.0 for DDR, 0 to 0.5 for SDR
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#-activity_dq .50 //Valid range 0 to 1.0 for DDR, 0 to 0.5 for SDR
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# Activity factor for Control/Address (0->1 transitions) per cycle (for DDR, need to account for the higher activity in this parameter. E.g. max. activity factor for DDR is 1.0, for SDR is 0.5)
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-activity_ca 1.0 //Valid range 0 to 1.0 for DDR, 0 to 0.5 for SDR, 0 to 0.25 for 2T, and 0 to 0.17 for 3T
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#-activity_ca 0.25 //Valid range 0 to 1.0 for DDR, 0 to 0.5 for SDR, 0 to 0.25 for 2T, and 0 to 0.17 for 3T
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# Number of DQ pins
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-num_dq 72 //Number of DQ pins. Includes ECC pins.
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# Number of DQS pins. DQS is a data strobe that is sent along with a small number of data-lanes so the source synchronous timing is local to these DQ bits. Typically, 1 DQS per byte (8 DQ bits) is used. The DQS is also typucally differential, just like the CLK pin.
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-num_dqs 36 //2 x differential pairs. Include ECC pins as well. Valid range 0 to 18. For x4 memories, could have 36 DQS pins.
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# Number of CA pins
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-num_ca 35 //Valid range 0 to 35 pins.
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#-num_ca 25 //Valid range 0 to 35 pins.
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# Number of CLK pins. CLK is typically a differential pair. In some cases additional CLK pairs may be used to limit the loading on the CLK pin.
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-num_clk 2 //2 x differential pair. Valid values: 0/2/4.
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# Number of Physical Ranks
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-num_mem_dq 2 //Number of ranks (loads on DQ and DQS) per buffer/register. If multiple LRDIMMs or buffer chips exist, the analysis for capacity and power is reported per buffer/register.
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# Width of the Memory Data Bus
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-mem_data_width 32 //x4 or x8 or x16 or x32 memories. For WideIO upto x128.
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