From 2f30950143cc70bc42a3c8a4111d7cf8198ec881 Mon Sep 17 00:00:00 2001 From: Nathan Binkert Date: Mon, 11 May 2009 10:38:43 -0700 Subject: ruby: Import ruby and slicc from GEMS We eventually plan to replace the m5 cache hierarchy with the GEMS hierarchy, but for now we will make both live alongside eachother. --- src/mem/ruby/network/orion/parm_technology.hh | 474 ++++++++++++++++++++++++++ 1 file changed, 474 insertions(+) create mode 100644 src/mem/ruby/network/orion/parm_technology.hh (limited to 'src/mem/ruby/network/orion/parm_technology.hh') diff --git a/src/mem/ruby/network/orion/parm_technology.hh b/src/mem/ruby/network/orion/parm_technology.hh new file mode 100644 index 000000000..87049d4cd --- /dev/null +++ b/src/mem/ruby/network/orion/parm_technology.hh @@ -0,0 +1,474 @@ +/* + * Copyright (c) 1999-2008 Mark D. Hill and David A. Wood + * All rights reserved. + * + * Redistribution and use in source and binary forms, with or without + * modification, are permitted provided that the following conditions are + * met: redistributions of source code must retain the above copyright + * notice, this list of conditions and the following disclaimer; + * redistributions in binary form must reproduce the above copyright + * notice, this list of conditions and the following disclaimer in the + * documentation and/or other materials provided with the distribution; + * neither the name of the copyright holders nor the names of its + * contributors may be used to endorse or promote products derived from + * this software without specific prior written permission. + * + * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS + * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT + * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR + * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT + * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, + * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT + * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, + * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY + * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT + * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE + * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. + */ + +#ifndef _PARM_TECHNOLOGY_H +#define _PARM_TECHNOLOGY_H + +/******* LEAKAGE current values for different tech points are in power_static.c *******/ +/******* for LINKS: metal cap is assumed to be CC2metal and repeater size is assumed to be n_size=Lambda*10, p_size=n_size*2 *******/ + +#define SWITCHING_FACTOR 0.5 /*used for offline calculations*/ + +/********************* Technology point **********/ +#define PARM_TECH_POINT 10 /* 100nm */ +#define PARM_Freq 3e9 +/*************************************************/ + + +/*********** Transistor parasitics ******************/ +#define PARM_Cndiffside (2.750000e-16) +#define PARM_Cpdiffovlp (1.380000e-16) +#define PARM_Cgatepass (1.450000e-15) +#define PARM_Cpdiffarea (3.430000e-16) +#define PARM_Cpdiffside (2.750000e-16) +#define PARM_Cpoxideovlp (3.380000e-16) +#define PARM_Cndiffovlp (1.380000e-16) +#define PARM_Cndiffarea (1.370000e-16) +#define PARM_Cgate (1.950000e-15) +#define PARM_Cnoxideovlp (2.630000e-16) +/*************************************************/ + + + +/************* Scaling factors for different technology points ******************/ +#if ( PARM_TECH_POINT == 10 ) /* 100nm */ +#define CSCALE (84.2172) /* wire capacitance scaling factor */ + /* linear: 51.7172, predicted: 84.2172 */ +#define RSCALE (80.0000) /* wire resistance scaling factor */ +#define LSCALE 0.1250 /* length (feature) scaling factor */ +#define ASCALE (LSCALE*LSCALE) /* area scaling factor */ +#define VSCALE 0.38 /* voltage scaling factor */ +#define VTSCALE 0.49 /* threshold voltage scaling factor */ +#define SSCALE 0.80 /* sense voltage scaling factor */ +/* FIXME: borrowed from 0.11u technology */ +#define MCSCALE 5.2277 /* metal coupling capacitance scaling factor */ +#define MCSCALE2 3 /* metal coupling capacitance scaling factor (2X) */ +#define MCSCALE3 1.5 /* metal coupling capacitance scaling factor (3X) */ +#define GEN_POWER_SCALE (1/PARM_GEN_POWER_FACTOR) +/* copied from TECH_POINT 10 except LSCALE */ +#elif ( PARM_TECH_POINT == 11 ) /* 110nm */ +#define CSCALE (84.2172) /* wire capacitance scaling factor */ +#define RSCALE (80.0000) /* wire resistance scaling factor */ +#define LSCALE 0.1375 /* length (feature) scaling factor */ +#define ASCALE (LSCALE*LSCALE) /* area scaling factor */ +#define VSCALE 0.38 /* voltage scaling factor */ +#define VTSCALE 0.49 /* threshold voltage scaling factor */ +#define SSCALE 0.80 /* sense voltage scaling factor */ +#define MCSCALE 5.2277 /* metal coupling capacitance scaling factor */ +#define MCSCALE2 3 /* metal coupling capacitance scaling factor (2X) */ +#define MCSCALE3 1.5 /* metal coupling capacitance scaling factor (3X) */ +#define GEN_POWER_SCALE (1/PARM_GEN_POWER_FACTOR) +#elif ( PARM_TECH_POINT == 18 ) /* 180nm */ +#define CSCALE (19.7172) /* wire capacitance scaling factor */ +#define RSCALE (20.0000) /* wire resistance scaling factor */ +#define LSCALE 0.2250 /* length (feature) scaling factor */ +#define ASCALE (LSCALE*LSCALE) /* area scaling factor */ +#define VSCALE 0.4 /* voltage scaling factor */ +#define VTSCALE 0.5046 /* threshold voltage scaling factor */ +#define SSCALE 0.85 /* sense voltage scaling factor */ +#define MCSCALE 4.1250 /* metal coupling capacitance scaling factor */ +#define MCSCALE2 2.4444 /* metal coupling capacitance scaling factor (2X) */ +#define MCSCALE3 1.2 /* metal coupling capacitance scaling factor (3X) */ +#define GEN_POWER_SCALE 1 +#elif ( PARM_TECH_POINT == 25 ) /* 250nm */ +#define CSCALE (10.2197) /* wire capacitance scaling factor */ +#define RSCALE (10.2571) /* wire resistance scaling factor */ +#define LSCALE 0.3571 /* length (feature) scaling factor */ +#define ASCALE (LSCALE*LSCALE) /* area scaling factor */ +#define VSCALE 0.45 /* voltage scaling factor */ +#define VTSCALE 0.5596 /* threshold voltage scaling factor */ +#define SSCALE 0.90 /* sense voltage scaling factor */ +#define MCSCALE 1.0 /* metal coupling capacitance scaling factor */ +#define MCSCALE2 1.0 /* metal coupling capacitance scaling factor (2X) */ +#define MCSCALE3 1.0 /* metal coupling capacitance scaling factor (3X) */ +#define GEN_POWER_SCALE PARM_GEN_POWER_FACTOR +#elif ( PARM_TECH_POINT == 35 ) /* 350nm */ +#define CSCALE (5.2197) /* wire capacitance scaling factor */ +#define RSCALE (5.2571) /* wire resistance scaling factor */ +#define LSCALE 0.4375 /* length (feature) scaling factor */ +#define ASCALE (LSCALE*LSCALE) /* area scaling factor */ +#define VSCALE 0.5 /* voltage scaling factor */ +#define VTSCALE 0.6147 /* threshold voltage scaling factor */ +#define SSCALE 0.95 /* sense voltage scaling factor */ +#define MCSCALE 1.0 /* metal coupling capacitance scaling factor */ +#define MCSCALE2 1.0 /* metal coupling capacitance scaling factor (2X) */ +#define MCSCALE3 1.0 /* metal coupling capacitance scaling factor (3X) */ +#define GEN_POWER_SCALE (PARM_GEN_POWER_FACTOR*PARM_GEN_POWER_FACTOR) +#elif ( PARM_TECH_POINT == 40 ) /* 400nm */ +#define CSCALE 1.0 /* wire capacitance scaling factor */ +#define RSCALE 1.0 /* wire resistance scaling factor */ +#define LSCALE 0.5 /* length (feature) scaling factor */ +#define ASCALE (LSCALE*LSCALE) /* area scaling factor */ +#define VSCALE 1.0 /* voltage scaling factor */ +#define VTSCALE 1.0 /* threshold voltage scaling factor */ +#define SSCALE 1.0 /* sense voltage scaling factor */ +#define MCSCALE 1.0 /* metal coupling capacitance scaling factor */ +#define MCSCALE2 1.0 /* metal coupling capacitance scaling factor (2X) */ +#define MCSCALE3 1.0 /* metal coupling capacitance scaling factor (3X) */ +#define GEN_POWER_SCALE (PARM_GEN_POWER_FACTOR*PARM_GEN_POWER_FACTOR*PARM_GEN_POWER_FACTOR) +#else /* ( PARM_TECH_POINT == 80 ) */ /* 800nm */ +#define CSCALE 1.0 /* wire capacitance scaling factor */ +#define RSCALE 1.0 /* wire resistance scaling factor */ +#define LSCALE 1.0 /* length (feature) scaling factor */ +#define ASCALE (LSCALE*LSCALE) /* area scaling factor */ +#define VSCALE 1.0 /* voltage scaling factor */ +#define VTSCALE 1.0 /* threshold voltage scaling factor */ +#define SSCALE 1.0 /* sense voltage scaling factor */ +#define MCSCALE 1.0 /* metal coupling capacitance scaling factor */ +#define MCSCALE2 1.0 /* metal coupling capacitance scaling factor (2X) */ +#define MCSCALE3 1.0 /* metal coupling capacitance scaling factor (3X) */ +#define GEN_POWER_SCALE (PARM_GEN_POWER_FACTOR*PARM_GEN_POWER_FACTOR*PARM_GEN_POWER_FACTOR*PARM_GEN_POWER_FACTOR) +#endif + +#define MSCALE (LSCALE * .624 / .2250) +#define PARM_NORMALIZE_SCALE (6.488730e-10) + +/* scaling factors from 0.1u to 0.07u, 0.05u and 0.035u */ +/* if technology point is 0.07u, o.05u or 0.035u set PARM_TECH_POINT to 10 and + * set TEST_LENGTH to 70, 50 or 35 respectively(TEST_LENGTH =100 for all other technologies) */ +#define TEST_LENGTH (70) + +#if (TEST_LENGTH == 70) +#define SCALE_T (0.5489156157) +#define SCALE_M (0.6566502462) +#define SCALE_S (1.4088071075) +#elif (TEST_LENGTH == 50) +#define SCALE_T (0.3251012552) +#define SCALE_M (0.4426460239) +#define SCALE_S (2.8667111607) +#elif (TEST_LENGTH == 35) +#define SCALE_T (0.2016627474) +#define SCALE_M (0.2489788586) +#define SCALE_S (8.7726826878) +#else +#define SCALE_T (1) +#define SCALE_M (1) +#define SCALE_S (1) +#endif /* TEST_LENGTH */ +/*************************************************/ + + + +/********************** technology point related ***************************/ +/* um */ +#define Leff (0.8 * LSCALE) +/* length unit in um */ +#define Lamda (Leff * 0.5) + +#ifndef Vdd +#define Vdd (5 * VSCALE) +#endif /* Vdd */ + +#define Period ((double)1/(double)PARM_Freq) +/*************************************************/ + + +/**** for SRAM - decoder, mem cell, wordline, bitline, output driver ****/ +/* + * CMOS 0.8um model parameters + * - from Appendix II of Cacti tech report + */ +/* corresponds to 8um of m3 @ 225ff/um */ +#define Cwordmetal (1.8e-15 * (CSCALE * ASCALE) * SCALE_M) + +/* corresponds to 16um of m2 @ 275ff/um */ +#define Cbitmetal (4.4e-15 * (CSCALE * ASCALE) * SCALE_M) + +/* corresponds to 1um of m2 @ 275ff/um */ +#define Cmetal (Cbitmetal/16) +#define CM2metal (Cbitmetal/16) +#define CM3metal (Cbitmetal/16) + +/* minimal spacing metal cap per unit length */ +#define CCmetal (Cmetal * MCSCALE) +#define CCM2metal (CM2metal * MCSCALE) +#define CCM3metal (CM3metal * MCSCALE) +/* 2x minimal spacing metal cap per unit length */ +#define CC2metal (Cmetal * MCSCALE2) +#define CC2M2metal (CM2metal * MCSCALE2) +#define CC2M3metal (CM3metal * MCSCALE2) +/* 3x minimal spacing metal cap per unit length */ +#define CC3metal (Cmetal * MCSCALE3) +#define CC3M2metal (CM2metal * MCSCALE3) +#define CC3M3metal (CM3metal * MCSCALE3) + +/* fF/um */ +#define Cpolywire (0.25e-15 * CSCALE * LSCALE) + +/* ohms*um of channel width */ +#define Rnchannelstatic (25800 * LSCALE) + +/* ohms*um of channel width */ +#define Rpchannelstatic (61200 * LSCALE) + +#define Rnchannelon (9723 * LSCALE) + +#define Rpchannelon (22400 * LSCALE) + +/* corresponds to 16um of m2 @ 48mO/sq */ +#define Rbitmetal (0.320 * (RSCALE * ASCALE)) + +/* corresponds to 8um of m3 @ 24mO/sq */ +#define Rwordmetal (0.080 * (RSCALE * ASCALE)) + +#define Powerfactor (PARM_Freq)*Vdd*Vdd +#define EnergyFactor (Vdd*Vdd) + +#define SensePowerfactor3 (PARM_Freq)*(Vbitsense)*(Vbitsense) // +#define SensePowerfactor2 (PARM_Freq)*(Vbitpre-Vbitsense)*(Vbitpre-Vbitsense) // +#define SensePowerfactor (PARM_Freq)*Vdd*(Vdd/2) // +#define SenseEnergyFactor (Vdd*Vdd/2) + +/* transistor widths in um (as described in tech report, appendix 1) */ +#define Wdecdrivep (57.0 * LSCALE) +#define Wdecdriven (40.0 * LSCALE) +#define Wdec3to8n (14.4 * LSCALE) +#define Wdec3to8p (14.4 * LSCALE) +#define WdecNORn (5.4 * LSCALE) +#define WdecNORp (30.5 * LSCALE) +#define Wdecinvn (5.0 * LSCALE) +#define Wdecinvp (10.0 * LSCALE) + +#define Wworddrivemax (100.0 * LSCALE) +#define Wmemcella (2.4 * LSCALE) /* AMIT memory cell inverter PMOS transistor width */ +#define Wmemcellr (4.0 * LSCALE) /* AMIT memory cell read access transistor width */ +#define Wmemcellw (2.1 * LSCALE) /* AMIT memory cell write access transistor width */ +#define Wmemcellbscale 2 /* AMIT (mem cell inverter NMOS trans width = Wmemcella * Wmemcellbscale) means 2x bigger than Wmemcella */ +#define Wbitpreequ (10.0 * LSCALE) // + +#define Wbitmuxn (10.0 * LSCALE) +#define WsenseQ1to4 (4.0 * LSCALE) +#define Wcompinvp1 (10.0 * LSCALE) +#define Wcompinvn1 (6.0 * LSCALE) +#define Wcompinvp2 (20.0 * LSCALE) +#define Wcompinvn2 (12.0 * LSCALE) +#define Wcompinvp3 (40.0 * LSCALE) +#define Wcompinvn3 (24.0 * LSCALE) +#define Wevalinvp (20.0 * LSCALE) +#define Wevalinvn (80.0 * LSCALE) + +#define Wcompn (20.0 * LSCALE) +#define Wcompp (30.0 * LSCALE) +#define Wcomppreequ (40.0 * LSCALE) +#define Wmuxdrv12n (30.0 * LSCALE) +#define Wmuxdrv12p (50.0 * LSCALE) +#define WmuxdrvNANDn (20.0 * LSCALE) +#define WmuxdrvNANDp (80.0 * LSCALE) +#define WmuxdrvNORn (60.0 * LSCALE) +#define WmuxdrvNORp (80.0 * LSCALE) +#define Wmuxdrv3n (200.0 * LSCALE) +#define Wmuxdrv3p (480.0 * LSCALE) +#define Woutdrvseln (12.0 * LSCALE) +#define Woutdrvselp (20.0 * LSCALE) +#define Woutdrvnandn (24.0 * LSCALE) +#define Woutdrvnandp (10.0 * LSCALE) +#define Woutdrvnorn (6.0 * LSCALE) +#define Woutdrvnorp (40.0 * LSCALE) +#define Woutdrivern (48.0 * LSCALE) +#define Woutdriverp (80.0 * LSCALE) +#define Wbusdrvn (48.0 * LSCALE) +#define Wbusdrvp (80.0 * LSCALE) + +#define Wcompcellpd2 (2.4 * LSCALE) // +#define Wcompdrivern (400.0 * LSCALE) +#define Wcompdriverp (800.0 * LSCALE) +#define Wcomparen2 (40.0 * LSCALE) +#define Wcomparen1 (20.0 * LSCALE) +#define Wmatchpchg (10.0 * LSCALE) +#define Wmatchinvn (10.0 * LSCALE) +#define Wmatchinvp (20.0 * LSCALE) +#define Wmatchnandn (20.0 * LSCALE) +#define Wmatchnandp (10.0 * LSCALE) +#define Wmatchnorn (20.0 * LSCALE) +#define Wmatchnorp (10.0 * LSCALE) + +#define WSelORn (10.0 * LSCALE) // +#define WSelORprequ (40.0 * LSCALE) // +#define WSelPn (10.0 * LSCALE) // +#define WSelPp (15.0 * LSCALE) // +#define WSelEnn (5.0 * LSCALE) // +#define WSelEnp (10.0 * LSCALE) // + +#define Wsenseextdrv1p (40.0*LSCALE) // +#define Wsenseextdrv1n (24.0*LSCALE) // +#define Wsenseextdrv2p (200.0*LSCALE) // +#define Wsenseextdrv2n (120.0*LSCALE) // + +/* bit width of RAM cell in um */ +#define BitWidth (16.0 * LSCALE) + +/* bit height of RAM cell in um */ +#define BitHeight (16.0 * LSCALE) + +#define Cout (0.5e-12 * LSCALE) + +/* Sizing of cells and spacings */ +#define RatCellHeight (40.0 * LSCALE) // +#define RatCellWidth (70.0 * LSCALE) // +#define RatShiftRegWidth (120.0 * LSCALE) // +#define RatNumShift 4 // +#define BitlineSpacing (6.0 * LSCALE) +#define WordlineSpacing (6.0 * LSCALE) + +#define RegCellHeight (16.0 * LSCALE) /* AMIT memory cell height */ +#define RegCellWidth (8.0 * LSCALE) /* AMIT memory cell width */ + +#define CamCellHeight (40.0 * LSCALE) +#define CamCellWidth (25.0 * LSCALE) +#define MatchlineSpacing (6.0 * LSCALE) +#define TaglineSpacing (6.0 * LSCALE) + +#define CrsbarCellHeight (6.0 * LSCALE) +#define CrsbarCellWidth (6.0 * LSCALE) + +/* Link length in um */ +#define PARM_link_length 1000 + + +/*************************************************/ + +/******* LEAKAGE current values for different tech points are in power_static.c *******/ +/******* for LINKS: metal cap is assumed to be CC2metal and repeater size is assumed to be n_size=Lambda*10, p_size=n_size*2 *******/ + +/* -------------------------Miscellaneous---------------------------- */ + +#define SIM_NO_MODEL 0 + +#define MAX_ENERGY 1 +#define AVG_ENERGY 0 + +#ifndef MAX +#define MAX(a,b) (((a)>(b))?(a):(b)) +#endif +#ifndef MIN +#define MIN(a,b) (((a)>(b))?(b):(a)) +#endif + +#define NEXT_DEPTH(d) ((d) > 0 ? (d) - 1 : (d)) + +#define BIGNUM 1e30 +#define BIGONE ((unsigned long int)1) +#define BIGNONE ((unsigned long int)-1) +#define HAMM_MASK(w) ((unsigned)w < (sizeof(unsigned long int) << 3) ? (BIGONE << w) - 1 : BIGNONE) + +/* Used to communicate with the horowitz model */ +#define RISE 1 +#define FALL 0 +#define NCH 1 +#define PCH 0 +/* --------------------------------------------------- */ + + + +/* ---------------------- not used ------------------------------- */ + +#define krise (0.4e-9 * LSCALE) // +#define tsensedata (5.8e-10 * LSCALE) // +#define tsensetag (2.6e-10 * LSCALE) // +#define tfalldata (7e-10 * LSCALE) // +#define tfalltag (7e-10 * LSCALE) // +#define Vbitpre (3.3 * SSCALE) // +#define Vt (1.09 * VTSCALE) +#define Vbitsense (0.10 * SSCALE) // + + +#define PARM_AF (5.000000e-01) // +#define PARM_MAXN (8) // +#define PARM_MAXSUBARRAYS (8) // +#define PARM_MAXSPD (8) // +#define PARM_VTHSENSEEXTDRV (4.370000e-01) // +#define PARM_VTHOUTDRNOR (4.310000e-01) // +#define PARM_res_fpalu (4) // +#define PARM_VTHCOMPINV (4.370000e-01) // +#define PARM_MD_NUM_IREGS (32) // +#define PARM_die_length (1.800000e-02) // +#define PARM_BITOUT (64) // + +#define PARM_ruu_decode_width (4) // +#define PARM_ruu_issue_width (4) // AMIT used only for result bus +#define PARM_amp_Idsat (5.000000e-04) //used in amp_energy +#define PARM_AF_TYPE (1) // +#define PARM_VSINV (4.560000e-01) //used in driver size calculations + +#define PARM_GEN_POWER_FACTOR (1.310000e+00) // +#define PARM_res_memport (2) // +#define PARM_VTHNAND60x90 (5.610000e-01) // + +#define PARM_opcode_length (8) // +#define PARM_MD_NUM_FREGS (32) // +#define PARM_FUDGEFACTOR (1.000000e+00) // +#define PARM_ruu_commit_width (4) // + +#define PARM_VTHOUTDRIVE (4.250000e-01) // + +#define PARM_VTHMUXDRV1 (4.370000e-01) // +#define PARM_inst_length (32) // +#define PARM_VTHMUXDRV2 (4.860000e-01) // + +#define PARM_ras_size (8) // +#define PARM_VTHMUXDRV3 (4.370000e-01) // +#define PARM_ADDRESS_BITS (64) // +#define PARM_RUU_size (16) // + +#define PARM_VTHNOR12x4x1 (5.030000e-01) // +#define PARM_VTHNOR12x4x2 (4.520000e-01) // +#define PARM_VTHOUTDRINV (4.370000e-01) // +#define PARM_VTHNOR12x4x3 (4.170000e-01) // +#define PARM_VTHEVALINV (2.670000e-01) // +#define PARM_crossover_scaling (1.200000e+00) // +#define PARM_VTHNOR12x4x4 (3.900000e-01) // +#define PARM_turnoff_factor (1.000000e-01) // +#define PARM_res_ialu (4) // + +#define PARM_VTHOUTDRNAND (4.410000e-01) // +#define PARM_VTHINV100x60 (4.380000e-01) // +#define PARM_LSQ_size (8) // + +/* ALU POWER NUMBERS for .18um 733Mhz */ +/* normalize .18um cap to other gen's cap, then xPowerfactor */ +#define POWER_SCALE (GEN_POWER_SCALE * PARM_NORMALIZE_SCALE * Powerfactor) // +#define I_ADD ((.37 - .091)*POWER_SCALE) // +#define I_ADD32 (((.37 - .091)/2)*POWER_SCALE) // +#define I_MULT16 ((.31-.095)*POWER_SCALE) // +#define I_SHIFT ((.21-.089)*POWER_SCALE) // +#define I_LOGIC ((.04-.015)*POWER_SCALE) // +#define F_ADD ((1.307-.452)*POWER_SCALE) // +#define F_MULT ((1.307-.452)*POWER_SCALE) // + +#define I_ADD_CLOCK (.091*POWER_SCALE) // +#define I_MULT_CLOCK (.095*POWER_SCALE) // +#define I_SHIFT_CLOCK (.089*POWER_SCALE) // +#define I_LOGIC_CLOCK (.015*POWER_SCALE) // +#define F_ADD_CLOCK (.452*POWER_SCALE) // +#define F_MULT_CLOCK (.452*POWER_SCALE) // + + +/* ----------------------------------------------------- */ + + +#endif -- cgit v1.2.3