ms.v
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/************************************************************************\
* *
* Copyright (C) 1994, Silicon Graphics, Inc. *
* *
* These coded instructions, statements, and computer programs contain *
* unpublished proprietary information of Silicon Graphics, Inc., and *
* are protected by Federal copyright law. They may not be disclosed *
* to third parties or copied or duplicated in any form, in whole or *
* in part, without the prior written consent of Silicon Graphics, Inc. *
* *
\************************************************************************/
// $Id: ms.v,v 1.1 2002/03/28 00:26:13 berndt Exp $
// top level for memspan
// this module contains instantiation of spanbuf.v and the four memspan
// logic modules ms_sm.v, ms_sc.v, ms_si.v, ms_rp.v as well as the
// dither module from phil ms_rand.v;
//
// added: tristate driver cells dbus_driver.v ebus_driver.v
// to add: 64b driver to/from texture unit (tonyd, rws)
//
// Note: memspan does not differentiate between primitives, e.g. each
// span from its point of view is a primitive; it's up to the host to
// perform sync's as needed to achieve expected results...
//
// Phasing info: all is relative to "startspant0" here: later by:
// 5 clocks: z to blend OR load data to texture unit
// 6 clocks: c to blend AND alpha from color combiner unit
//*new* 7 clocks: copy data from texture unit to memspan
// 8 clocks: z from blend
// 9 clocks: c from blend
// 14 clocks: writemasks latched, launch write of spanlet
// (note: above is max case; actual can be up to 3 less due to mode
// controlled pipe length, needed to allow sustained throughput r/w c/z
// of the single port register file spanbufs; and behaviorally all are
// extended a clock functionally if twocycle mode case, but this is details)
//
// Prefetch occurs much before the above, determined by EW output to
// span buffer timing relative to startspant0.
// span buffer not yet designed/sized (see notes herein);
// ***add cbus i/f module, tristate dbus module********
// a note on stalls: the working assumption is that the memspan stall
// signal "stopgclock" is used "immediately" to defer next rising edge
// of gclock.
//mods 10-19-94: rel_sync_full, stb_sync_full, unfreeze_gclk, freeze_gclk;
//mods 10-20-94: tristate drivers ms_drve/t/d.v, cbus module "ms_dma.v";
// add pipe_busy output from ms_sm.v
//mods 10-26-94: add startspant12, endspant11, fullc/zwmt11, stallnxtwm
//mods 10-28-94: cbus read/write separate enables, add stopgclock to ms_sc.v
//mods 11-7 add endspant14 (sc, rp)
//mods 11-10 add BIST
//mods 11-16: add wire copywen (ms_si to ms_rp), si: ccalpha, alphacompen;
// also wrcopymode_buf, wrcsize8_buf, wrcsize16_buf;
//mods 11-17: add rdpc/zwptrn[6:0] from ms_rp to ms_si for ldc/zbufwen phasing;
//mods 11-20: add to si: dithalpha, dithalphaen, blendalpha for copymode;
//mods 11-21: add stallwptr from ms_rp to ms_si to kill rdpwe at stalls;
// add rmwcsize32 to ms_rp for cptrinc;
//mods 11-23: add ms_sm outport start_gclk, prop to top level;
//mods 11-29: buffer fillcolor as wrfillcolor in ms_sc.v
//mods 12-2: add stallptr input to ms_si for conflict sm
//mods 12-5: add out/in wrrender_buf ms_sc/ms_rp
// 12-6: add rmwenreadc into ms_si for coverage hack;
// 12-7: mod startspan(input), startspand2(stall creation);
// undo d2 mod
// 12-22: add sc->rp: wrloadmode_buf, wrenreadz_buf for transl fix;
// 12-30: add validt2 to ms_sc.v (new year's hack);
// 1-3 add rmwenreadz from ms_sc to ms_si for zread force at enreadz=0;
// 1-4 add test_mode1 from ms_debug to ms_si, ms_rp; test_mode0 to ms_sc;
// stallrdctxtd, stallwrctxtd, stallczwmd, stallc/zr/wd to ms_debug;
// also add stopgclockd;
// 1-5 add rel_sync_full to diags; also: stb_sync_full;
// 2-1 add start4ms from ms_sm to ms_si for extphase bug fix;
// SECOND TAPEOUT MODS
// 3-30-95 add new ports rp => si: limitcw, limitzw (timing paths);
// remove stallwptr rp => si ports;
// 4-4-95 connect test_mode0 from ms_debug to ms_sc to reset ptrs;
// 6/2/95 (pg) added ordered dither stuff
// 6-9-95 update buswidth for start_gclk, now a bus for new gclk scheme;
`timescale 1ns/1ns
module ms(clock, gclock, reset_l, grant, start, finish, dma_write_enable,
dma_read_enable, cbus_read_enable, cbus_write_enable, cbus_select,
cbus_command, read_grant,
stb_sync_full, freeze_gclk, unfreeze_gclk,
cycle_type, image_read_en, z_update_en, z_compare_en, color_base,
color_size, color_format, z_base, tex_base, tex_size, tex_format,
load_tlut_en, fillcolor, alphacompen, dithalphaen, blendalpha, noise,
startspant0, nextspanxi, nextspanxf, nextspancount, nextspanxdec,
load_en, spanbufmt, rdpwdepthin, rdpwredin, rdpwgreenin,
rdpwbluein, rdpwalphain, rdpcolorwen, ccalpha,
dither_sel, rgb_dither,
bist_done, bist_fail,
//bidirectional
copy_load, cbus_data, dbus_data, ebus_data,
//outputs begin
load_dv, rel_sync_full, pipe_busy,
stopgclock, start_gclk, rdramreq, read_request, rdramrw,
spanbufrd, rdprred, rdprgreen, rdprblue, rdpralpha,
bist_go, bist_check,
start_gclk1, start_gclk2, start_gclk3,
start_gclk4, start_gclk5, start_gclk6,
rdprdepthd);
// `include "ms.vh" // Note: causes some sort of asic synth problem.
`include "ms.vh" //hmmm...right now I need it to compile....rws 10-19
`timescale 10ps/10ps //1unit = 0.01ns
input clock; // system clock
input gclock; // stallable system clock
input bist_done;
input [7:0] bist_fail;
input reset_l; // system reset
input stb_sync_full; //full sync request to ms
input freeze_gclk; //from host, freeze gclk
input unfreeze_gclk; //from sp, undo fullsync freeze
input grant; //dma grant
input start; //dma data valid
input finish; //dma read last cycle
input dma_write_enable; //ms to io tristate en
input dma_read_enable; //io to ms enable
input cbus_read_enable;
input cbus_write_enable;
input [1:0] cbus_select;
input [2:0] cbus_command;
input read_grant;
input [1:0] cycle_type; //attributes etc. begin
input image_read_en;
input z_update_en;
input z_compare_en;
input [25:0] color_base;
input [1:0] color_size;
input [2:0] color_format;
input [25:0] z_base;
input [25:0] tex_base;
input [1:0] tex_size;
input [2:0] tex_format;
input load_tlut_en; //ignored unless load_en set
input [31:0] fillcolor;
input alphacompen;
input dithalphaen;
input [7:0] blendalpha;
input [2:0] noise; //cc noise to dither gen
input startspant0; //startspan from EW pipe, delay
input [19:0] nextspanxi; //EW initial span pix coord
input [11:0] nextspanxf; //EW final span pix coord
input [11:0] nextspancount; //EW count per span
input nextspanxdec; //right major per span
input load_en; //load enable per span
input spanbufmt; //span buffer empty
input [17:0] rdpwdepthin; //depth value from blend
input [7:0] rdpwredin;
input [7:0] rdpwgreenin;
input [7:0] rdpwbluein;
input [2:0] rdpwalphain;
input rdpcolorwen; //wen (sync'd with color)
input [7:0] ccalpha; //alpha from cc
input [1:0] dither_sel;
input [2:0] rgb_dither;
inout [63:0] copy_load; // bidirectional copy / load bus
inout [31:0] cbus_data;
inout [63:0] dbus_data;
inout [7:0] ebus_data;
output load_dv; // valid load data on copy_load bus
output rdramreq;
output rdramrw;
output read_request; //output of cbus module to io
output stopgclock; //stall output: used by rws sim env only
output start_gclk; //new polarity of above for system level
output rel_sync_full; //to EW, sync done, gclk to stop
output pipe_busy; //memspan not in rel_sync_full condition
output spanbufrd; //pop span buffer
//note: for simplicity, we might not want to read and
//write span buffer at same time, add logic to do this?
//e.g. spanbufmt = spanbufmt.in || spanbufload from EW
//note also: spanbuf never overflows (choose size!);
output [7:0] rdprred; //color to blend unit
output [7:0] rdprgreen;
output [7:0] rdprblue;
output [2:0] rdpralpha;
output [17:0] rdprdepthd; //depth to blend unit
output bist_go;
output bist_check;
output start_gclk1; //buffered output for new gclk distribution scheme
output start_gclk2; //buffered output for new gclk distribution scheme
output start_gclk3; //buffered output for new gclk distribution scheme
output start_gclk4; //buffered output for new gclk distribution scheme
output start_gclk5; //buffered output for new gclk distribution scheme
output start_gclk6; //buffered output for new gclk distribution scheme
//wires define
//sm
wire [3:0] smcwincwr, smzwincwr;
wire [6:0] start_gclk_bus;
assign start_gclk = start_gclk_bus[0];
assign start_gclk1 = start_gclk_bus[1];
assign start_gclk2 = start_gclk_bus[2];
assign start_gclk3 = start_gclk_bus[3];
assign start_gclk4 = start_gclk_bus[4];
assign start_gclk5 = start_gclk_bus[5];
assign start_gclk6 = start_gclk_bus[6];
//sc
wire [1:0] cycle_type, color_size, tex_size;
wire [2:0] color_format, tex_format;
wire [6:0] rdramlen;
wire [11:0] nextspanxf, nextspancount, stepcount, pixcount, wrcxf_buf;
wire [19:0] nextspanxi;
wire [25:0] color_base, tex_base, z_base, rdramaddr;
wire [25:0] rdcxi, savezxi, rdzxi, rmwcxi, rmwzxi, wrcxi_buf, wrzxi_buf,
wrcxi, wrzxi;
wire [3:0] rmwrbcrptr, rdrbzrptr, wrrbcrptr_buf, wrrbzrptr_buf;
wire [31:0] wrfillcolor;
wire [3:0] rbcrptrd, rbzrptrd, rbcwptrd, rbzwptrd;
//si
wire [143:0] din, dout;
wire [3:0] addr0, addr1;
wire [7:0] ebus_data, ebus_dout;
wire [26:0] rdprcolor, rdpwcolor;
wire [17:0] rdprdepthd, rdpwdepth;
wire [31:0] zwmask, fillcolor;
wire [63:0] dbus_data, dbus_dout, cwmask, copy_load, dataload;
wire [6:0] rdpcrptrsb, rdpzrptrsb, rdpcwptrsbc, rdpzwptrsbc, rdpcwptrn, rdpzwptrn;
wire [3:0] rbcrptr, rbzrptr, rbcwptr, rbzwptr;
wire [7:0] rdpwredin, rdpwgreenin, rdpwbluein;
wire [2:0] rdpwalphain;
wire [17:0] rdpwdepthin;
//rp
wire [7:0] copywen, ccalpha, dithalpha, blendalpha;
//rand
wire [2:0] rand_r, rand_g, rand_b;
//iomsdma
wire [CBUS_SELECT_SIZE-1:0] cbus_select;
wire [CBUS_COMMAND_SIZE-1:0] cbus_command;
wire [DRAM_ADDRESS_SIZE-1:0] dma_address;
wire [DMA_LENGTH_SIZE-1:0] dma_length;
wire [CBUS_DATA_SIZE-1:0] reg_read_data, diagdata, diagdout;
wire [CBUS_DATA_SIZE-1:0] reg_write_data, diagdin;
wire [DP_REG_ADDRESS_SIZE-1:0] reg_address, diagaddr;
wire [CBUS_DATA_SIZE-1:0] cbus_data;
//debug
wire [DP_BIST_FAIL_SIZE-1:0] bist_fail;
wire we0d;
wire we1d;
wire [3:0] addr0d;
wire [3:0] addr1d;
wire [143:0] dind;
//module instantiations
ms_sm sm ( .clock(clock), .reset_l(reset_l), .stb_sync_full(stb_sync_full),
.freeze_gclk(freeze_gclk), .unfreeze_gclk(unfreeze_gclk),
.rdspace(rdspace), .rdenreadc(rdenreadc), .rdenreadz(rdenreadz),
.grant(grant), .start(start), .finish(finish),
.creqw(creqw), .zreqw(zreqw), .cwmzero(cwmzero), .zwmzero(zwmzero),
.rddone(rddone), .smcwincwr(smcwincwr), .smzwincwr(smzwincwr),
.stallphase(stallphase), .stallrw(stallrw), .stallrdctxt(stallrdctxt),
.stallwrctxt(stallwrctxt), .stallptr(stallptr), .stallczwm(stallczwm),
.stallnxtwm(stallnxtwm), .spanproc(spanproc),
.steprddone(steprddone),
.finishd1(finishd1),
.finishd2(finishd2),
.rdramreqcr(rdramreqcr), .rdramreqzr(rdramreqzr),
.rdramreqcw(rdramreqcw), .rdramreqzw(rdramreqzw),
.enrbwe(enrbwe), .selrbcr(selrbcr), .selrbzr(selrbzr),
.selrbcw(selrbcw), .selrbzw(selrbzw),
.selcwmask(selcwmask), .selzwmask(selzwmask),
.resetcreqw(resetcreqw), .resetzreqw(resetzreqw),
.steprbcrptr(steprbcrptr), .steprbzrptr(steprbzrptr),
.steprbcwptr(steprbcwptr), .steprbzwptr(steprbzwptr),
.rbphase(rbphase), .start_gclk_bus(start_gclk_bus),
.start4ms(start4ms),
.stopgclock(stopgclock), .rel_sync_full(rel_sync_full),
.pipe_busy(pipe_busy), .stopgclockd(stopgclockd) );
ms_sc sc ( .clock(clock), .gclock(gclock), .reset_l(reset_l),
.stopgclock(stopgclock),
.cycle_type(cycle_type), .image_read_en(image_read_en),
.z_update_en(z_update_en), .z_compare_en(z_compare_en),
.color_base(color_base), .color_size(color_size),
.z_base(z_base), .tex_base(tex_base),
.tex_size(tex_size), .load_en(load_en),
.color_format(color_format), .fillcolor(fillcolor),
.tex_format(tex_format), .ldtlut_en(load_tlut_en),
.nextspanxi(nextspanxi), .nextspanxf(nextspanxf),
.nextspancount(nextspancount), .nextspanxdec(nextspanxdec),
.spanbufmt(spanbufmt),
.startspant0(startspant0d), .startspant1(startspant1),
.startspant7m(startspant7m), .steprddone(steprddone),
.steprbcrptr(steprbcrptr), .steprbzrptr(steprbzrptr),
.steprbcwptr(steprbcwptr), .steprbzwptr(steprbzwptr),
.rdramreqcr(rdramreqcr), .rdramreqzr(rdramreqzr),
.rdramreqcw(rdramreqcw), .rdramreqzw(rdramreqzw),
.creqw(creqw), .zreqw(zreqw), .test_mode0(test_mode0),
.resetcreqw(resetcreqw), .resetzreqw(resetzreqw),
.startspant12(startspant12), .endspant11(endspant11),
.fullcwmt11(fullcwmt11), .fullzwmt11(fullzwmt11),
.startspant8(startspant8), .endspant12(endspant12),
.endspant14(endspant14), .validt2 (validt2),
.rdspace(rdspace), .rddone(rddone), .rdenreadc(rdenreadc),
.rdenreadz(rdenreadz), .rdcxi(rdcxi), .savezxi(savezxi),
.rdxdec(rdxdec), .rdzxi(rdzxi),
.rmwenreadc(rmwenreadc), .rmwenreadz(rmwenreadz),
.wrfillmode(wrfillmode),
.wrzxi_buf(wrzxi_buf), .wrxdec_buf(wrxdec_buf),
.rmwenwritec(rmwenwritec), .rmwenwritez(rmwenwritez),
.wrenwritec_buf(wrenwritec_buf), .wrenwritez_buf(wrenwritez_buf),
.stallrdctxt(stallrdctxt), .stallrdctxtd(stallrdctxtd),
.stallwrctxtd(stallwrctxtd),
.stallwrctxt(stallwrctxt), .rdramreq(rdramreq), .rdramlen(rdramlen),
.rdramaddr(rdramaddr), .rdramdir(rdramdir), .rdramrw(rdramrw),
.rdtwophase(rdtwophase), .rmwtwophase(rmwtwophase),
.rdcopymode(rdcopymode), .rdfillmode(rdfillmode),
.rdloadmode(rdloadmode), .wrloadmode(wrloadmode),
.rmwcopymode(rmwcopymode), .rmwfillmode(rmwfillmode),
.rmwloadmode(rmwloadmode), .pixcount(pixcount),
.wrcopymode_buf(wrcopymode_buf), .wrfillmode_buf(wrfillmode_buf),
.rmwrgbmode(rmwrgbmode), .rmwloadtlut(rmwloadtlut),
.rdperclk8(rdperclk8), .rdperclk4(rdperclk4),
.rdperclk2(rdperclk2), .rmwperclk8(rmwperclk8),
.rmwperclk4(rmwperclk4), .rmwperclk2(rmwperclk2),
.rmwcsize8(rmwcsize8), .rmwcsize16(rmwcsize16),
.rmwcsize32(rmwcsize32), .wrcsize8_buf(wrcsize8_buf),
.wrcsize16_buf(wrcsize16_buf), .wrfillcolor(wrfillcolor),
.wrcsize32_buf(wrcsize32_buf), .wrcxi_buf(wrcxi_buf),
.wrcxf_buf(wrcxf_buf), .rmwcxi(rmwcxi), .rmwzxi(rmwzxi),
.rmwxdec(rmwxdec), .spanproc(spanproc), .wrrender_buf(wrrender_buf),
.smcwincwr(smcwincwr), .smzwincwr(smzwincwr),
.rmwrbcrptr(rmwrbcrptr), .rdrbzrptr(rdrbzrptr),
.wrrbcrptr_buf(wrrbcrptr_buf), .wrrbzrptr_buf(wrrbzrptr_buf),
.stepcount(stepcount), .rbzrptr(rbzrptr),
.rbcrptr(rbcrptr), .rbzwptr(rbzwptr), .rbcwptr(rbcwptr),
.rbcrptrd(rbcrptrd), .rbzwptrd(rbzwptrd),
.rbcwptrd(rbcwptrd), .rbzrptrd(rbzrptrd),
.wrcxi(wrcxi), .wrzxi(wrzxi), .wrxdec(wrxdec), .stallnxtwm(stallnxtwm),
.wrloadmode_buf(wrloadmode_buf), .wrenreadz_buf(wrenreadz_buf),
.spanbufrd(spanbufrd), .wrcopymode(wrcopymode) );
ms_si si ( .clock(clock), .gclock(gclock), .reset_l(reset_l),
.rbphase(rbphase), .finishd1(finishd1), .finishd2(finishd2),
.start(start), .rdpwcolor(rdpwcolor), .rmwenreadz(rmwenreadz),
.rdpwdepth(rdpwdepth), .stopgclock(stopgclock),
.dbus_din(dbus_data), .dma_read_en(dma_read_enable),
.ebus_din(ebus_data), .wrcopymode_buf(wrcopymode_buf),
.dout(dout), .selrbcr(selrbcr), .selrbzr(selrbzr),
.selrbcw(selrbcw), .selrbzw(selrbzw),
.rmwrgbmode(rmwrgbmode), .wrcopymode(wrcopymode),
.rdpreqcr(rdpreqcr), .rdpreqzr(rdpreqzr), .rdpreqcw(rdpreqcw),
.rdpreqzw(rdpreqzw), .enrbwe(enrbwe),
.selcwmask(selcwmask), .selzwmask(selzwmask),
.wrfillcolor(wrfillcolor), .rbcrptr(rbcrptr),
.rbzrptr(rbzrptr), .rbcwptr(rbcwptr),
.rbzwptr(rbzwptr), .rdcxi(rdcxi), .rdzxi(rdzxi), .rdxdec(rdxdec),
.wrcxi(wrcxi), .wrzxi(wrzxi), .wrxdec(wrxdec),
.rmwcsize8(rmwcsize8), .rmwcsize16(rmwcsize16),
.rmwcsize32(rmwcsize32), .rmwenreadc(rmwenreadc),
.wrfillmode(wrfillmode), .cwmask(cwmask),
.zwmask(zwmask), .rdpcrptrsb(rdpcrptrsb), .rdpzrptrsb(rdpzrptrsb),
.rdpcwptrsbc(rdpcwptrsbc), .rdpzwptrsbc(rdpzwptrsbc),
.rdprpixc(rdprpixc), .rdprpixz(rdprpixz),
.rdpwpixc(rdpwpixc), .rdpwpixz(rdpwpixz),
.rmwcopymode(rmwcopymode), .rmwloadtlut(rmwloadtlut),
.load_dve(load_dve), .blendalpha(blendalpha), .alphacompen(alphacompen),
.wrcsize8_buf(wrcsize8_buf), .wrcsize16_buf(wrcsize16_buf),
.rdpcwptrn(rdpcwptrn), .dithalpha(dithalpha),
.rdpzwptrn(rdpzwptrn), .dithalphaen(dithalphaen),
.stallptr(stallptr), .test_mode1(test_mode1),
.start4ms(start4ms), .limitcw(limitcw), .limitzw(limitzw),
.dbus_dout(dbus_dout), .ebus_dout(ebus_dout), .din(din),
.rdprcolor({rdprred, rdprgreen, rdprblue, rdpralpha}),
.rdprdepthd(rdprdepthd), .copywen(copywen),
.addr0(addr0), .addr1(addr1),
.we0(we0), .we1(we1), .copy_load(copy_load), .dataload(dataload),
.stallphase(stallphase), .stallrw(stallrw) );
ms_rp rp ( .clock(clock), .gclock(gclock), .reset_l(reset_l),
.startspan(startspant0), .pixcount(pixcount),
.stepcount(stepcount), .stopgclock(stopgclock),
.rdloadmode(rdloadmode), .rdfillmode(rdfillmode),
.rdcopymode(rdcopymode), .rmwxdec(rmwxdec),
.rdtwophase(rdtwophase), .rmwtwophase(rmwtwophase),
.rmwloadmode(rmwloadmode), .rmwcopymode(rmwcopymode),
.rmwfillmode(rmwfillmode), .copywen(copywen),
.rmwloadtlut(rmwloadtlut), .rdperclk8(rdperclk8),
.rdperclk4(rdperclk4), .rdperclk2(rdperclk2),
.rmwperclk8(rmwperclk8), .rmwperclk4(rmwperclk4),
.rmwperclk2(rmwperclk2), .rmwcxi(rmwcxi), .rmwzxi(rmwzxi),
.wrcxi_buf(wrcxi_buf), .wrcxf_buf(wrcxf_buf),
.wrzxi_buf(wrzxi_buf), .wrxdec_buf(wrxdec_buf),
.rbzrptr(rbzrptr), .rbcrptr(rbcrptr), .rbzwptr(rbzwptr),
.rbcwptr(rbcwptr), .rmwenreadz(rmwenreadz), .rmwenreadc(rmwenreadc),
.rmwenwritec(rmwenwritec), .rmwenwritez(rmwenwritez),
.rmwcsize16(rmwcsize16), .rmwcsize32(rmwcsize32),
.rdpwdepthin(rdpwdepthin), .wrloadmode(wrloadmode),
.rdpwcolorin({rdpwredin, rdpwgreenin, rdpwbluein, rdpwalphain}),
.rdpcolorwen(rdpcolorwen), .alphacompen(alphacompen),
.dithalphaen(dithalphaen),
.blendalpha(blendalpha), .dithalpha(dithalpha),
.ccalpha(ccalpha), .rand_r(rand_r), .rand_g(rand_g), .rand_b(rand_b),
.rdcxi(rdcxi), .savezxi(savezxi), .wrrender_buf(wrrender_buf),
.resetcreqw(resetcreqw), .resetzreqw(resetzreqw),
.wrenwritez_buf(wrenwritez_buf), .wrenwritec_buf(wrenwritec_buf),
.wrcsize8_buf(wrcsize8_buf), .wrcsize16_buf(wrcsize16_buf),
.wrcsize32_buf(wrcsize32_buf), .rdxdec(rdxdec),
.wrfillmode_buf(wrfillmode_buf), .wrcopymode_buf(wrcopymode_buf),
.rmwrbcrptr(rmwrbcrptr), .rdrbzrptr(rdrbzrptr),
.wrrbcrptr_buf(wrrbcrptr_buf), .wrrbzrptr_buf(wrrbzrptr_buf),
.wrloadmode_buf(wrloadmode_buf), .wrenreadz_buf(wrenreadz_buf),
.test_mode1(test_mode1),
.startspant1(startspant1), .startspant7m(startspant7m),
.stallptr(stallptr), .stallczwm(stallczwm), .load_dv(load_dv),
.startspant12(startspant12), .endspant11(endspant11),
.fullcwmt11(fullcwmt11), .fullzwmt11(fullzwmt11),
.creqw(creqw), .zreqw(zreqw), .cwmask(cwmask), .zwmask(zwmask),
.cwmzero(cwmzero), .zwmzero(zwmzero), .stallczwmd(stallczwmd),
.startspant8(startspant8), .startspant0(startspant0d),
.rdprpixz(rdprpixz), .rdprpixc(rdprpixc), .rdpwpixz(rdpwpixz),
.rdpwpixc(rdpwpixc), .rdpreqzr(rdpreqzr), .rdpreqcr(rdpreqcr),
.rdpreqzw(rdpreqzw), .rdpreqcw(rdpreqcw), .rdpzrptrsb(rdpzrptrsb),
.rdpcrptrsb(rdpcrptrsb), .rdpzwptrsbc(rdpzwptrsbc),
.rdpcwptrsbc(rdpcwptrsbc), .endspant12(endspant12),
.endspant14(endspant14), .load_dve(load_dve),
.stallcrd(stallcrd), .stallzrd(stallzrd),
.stallcwd(stallcwd), .stallzwd(stallzwd),
.rdpcwptrn(rdpcwptrn), .validt2 (validt2),
.rdpzwptrn(rdpzwptrn),
.limitcw(limitcw), .limitzw(limitzw),
.rdpwdepth(rdpwdepth), .rdpwcolor(rdpwcolor) );
ms_rand rand ( .clk(clock), .reset_l(reset_l),
.dither_sel(dither_sel), .rgb_dither(rgb_dither), .noise(noise),
.rand_r(rand_r), .rand_g(rand_g), .rand_b(rand_b),
.alpha_dither(dithalpha) );
spanbuf sb0 ( .wen(we0d), .clk(clock), .a(addr0d), .di(dind[143:72]),
.dout(dout[143:72]) );
spanbuf sb1 ( .wen(we1d), .clk(clock), .a(addr1d), .di(dind[71:0]),
.dout(dout[71:0]) );
ms_dma iomsdma ( .clock(clock), .reset_l(reset_l),
.cbus_read_enable(cbus_read_enable),
.cbus_write_enable(cbus_write_enable),
.cbus_select(cbus_select), .cbus_command(cbus_command),
.read_grant(read_grant),
.dma_read(rdramrw), .dma_down(rdramdir), .dma_address(rdramaddr[23:0]),
.dma_length(rdramlen), .reg_read_data(diagdout),
.read_request(read_request),
.reg_write_data(diagdin), .reg_address(diagaddr),
.reg_write_enable(diagwr), .cbus_data(cbus_data) );
ms_debug iomsdebug (.clock(clock), .reset_l(reset_l),
.reg_write_enable(diagwr), .reg_address(diagaddr),
.reg_write_data(diagdin), .bist_done(bist_done),
.rbcrptrd(rbcrptrd), .rbcwptrd(rbcwptrd), .rel_sync_full(rel_sync_full),
.rbzrptrd(rbzrptrd), .rbzwptrd(rbzwptrd), .stopgclockd(stopgclockd),
.stallrdctxtd(stallrdctxtd), .stallwrctxtd(stallwrctxtd),
.stallczwmd(stallczwmd), .stallcrd(stallcrd), .stallzrd(stallzrd),
.stallcwd(stallcwd), .stallzwd(stallzwd), .stb_sync_full(stb_sync_full),
.bist_fail(bist_fail),
.we0(we0), .we1(we1), .addr0(addr0), .addr1(addr1), .din(din), .dout(dout),
.reg_read_data(diagdout), .test_mode0(test_mode0), .test_mode1(test_mode1),
.bist_go(bist_go), .bist_check(bist_check),
.we0d(we0d), .we1d(we1d), .addr0d(addr0d), .addr1d(addr1d), .dind(dind));
dbus_driver drvd ( .dbus_data_out(dbus_dout), .dbus_enable(dma_write_enable),
.dbus_data(dbus_data) );
ebus_driver drve ( .ebus_data_out(ebus_dout), .ebus_enable(dma_write_enable),
.ebus_data(ebus_data) );
tmem_driver drvt ( .tmem_data_out(dataload), .tmem_enable(load_dv),
.tmem_data(copy_load) );
endmodule