OpenCores

Rev 57	Rev 63
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`History:`	`History:`
`21/08/2009 Initial version. <wsong83@gmail.com>`	`21/08/2009 Initial version. <wsong83@gmail.com>`
`20/09/2010 Supporting channel slicing and SDM using macro difinitions. <wsong83@gmail.com>`	`20/09/2010 Supporting channel slicing and SDM using macro difinitions. <wsong83@gmail.com>`
`23/05/2011 Clean up for opensource. <wsong83@gmail.com>`	`23/05/2011 Clean up for opensource. <wsong83@gmail.com>`
	`22/06/2011 Prepare to support buffered Clos. <wsong83@gmail.com>`

`*/`	`*/`

`// the router structure definitions`	`// the router structure definitions`
`include "define.v"	`include "define.v"

`module dcb_xy (/AUTOARG/`	`module dcb_xy (`
`// Outputs`	`// Outputs`
`so0, so1, so2, so3, wo0, wo1, wo2, wo3, no0, no1, no2, no3, eo0,`	`so0, so1, so2, so3, wo0, wo1, wo2, wo3, no0, no1, no2, no3, eo0,`
`eo1, eo2, eo3, lo0, lo1, lo2, lo3, so4, sia, wo4, wia, no4, nia,`	`eo1, eo2, eo3, lo0, lo1, lo2, lo3, so4, sia, wo4, wia, no4, nia,`
`eo4, eia, lo4, lia,`	`eo4, eia, lo4, lia,`
`// Inputs`	`// Inputs`
`si0, si1, si2, si3, wi0, wi1, wi2, wi3, ni0, ni1, ni2, ni3, ei0,`	`si0, si1, si2, si3, wi0, wi1, wi2, wi3, ni0, ni1, ni2, ni3, ei0,`
`ei1, ei2, ei3, li0, li1, li2, li3, si4, soa, wi4, woa, ni4, noa,`	`ei1, ei2, ei3, li0, li1, li2, li3, si4, soa, wi4, woa, ni4, noa,`
`ei4, eoa, li4, loa, scfg, ncfg, wcfg, ecfg, lcfg`	`ei4, eoa, li4, loa, scfg, ncfg, wcfg, ecfg, lcfg`
	`ifdef ENABLE_BUFFERED_CLOS
	`, soa4, woa4, noa4, eoa4, loa4`
	`endif
`) ;`	`) ;`

`parameter VCN = 1; // number of virtual circuits per port`	`parameter VCN = 1; // number of virtual circuits per port`
`parameter VCW = 8; // the datawidth of a single virtual circuit`	`parameter VCW = 8; // the datawidth of a single virtual circuit`
`parameter SCN = VCW/2; // number of 1-of-4 sub-channels in one virtual circuit`	`parameter SCN = VCW/2; // number of 1-of-4 sub-channels in one virtual circuit`
Line 59...	Line 63...
`output [VCN-1:0][SCN-1:0] no4, nia;`	`output [VCN-1:0][SCN-1:0] no4, nia;`
`input [VCN-1:0][SCN-1:0] ei4, eoa;`	`input [VCN-1:0][SCN-1:0] ei4, eoa;`
`output [VCN-1:0][SCN-1:0] eo4, eia;`	`output [VCN-1:0][SCN-1:0] eo4, eia;`
`input [VCN-1:0][SCN-1:0] li4, loa;`	`input [VCN-1:0][SCN-1:0] li4, loa;`
`output [VCN-1:0][SCN-1:0] lo4, lia;`	`output [VCN-1:0][SCN-1:0] lo4, lia;`
	`ifdef ENABLE_BUFFERED_CLOS
	`input [VCN-1:0][SCN-1:0] soa4, woa4, noa4, eoa4, loa4;`
	`endif
`else // !`ifdef ENABLE_CHANNEL_SLICING	`else // !`ifdef ENABLE_CHANNEL_SLICING
`input [VCN-1:0] si4, soa;`	`input [VCN-1:0] si4, soa;`
`output [VCN-1:0] so4, sia;`	`output [VCN-1:0] so4, sia;`
`input [VCN-1:0] wi4, woa;`	`input [VCN-1:0] wi4, woa;`
`output [VCN-1:0] wo4, wia;`	`output [VCN-1:0] wo4, wia;`
Line 70...	Line 77...
`output [VCN-1:0] no4, nia;`	`output [VCN-1:0] no4, nia;`
`input [VCN-1:0] ei4, eoa;`	`input [VCN-1:0] ei4, eoa;`
`output [VCN-1:0] eo4, eia;`	`output [VCN-1:0] eo4, eia;`
`input [VCN-1:0] li4, loa;`	`input [VCN-1:0] li4, loa;`
`output [VCN-1:0] lo4, lia;`	`output [VCN-1:0] lo4, lia;`
	`ifdef ENABLE_BUFFERED_CLOS
	`input [VCN-1:0] soa4, woa4, noa4, eoa4, loa4;`
	`endif
`endif	`endif

`// configurations`	`// configurations`
`input [VCN-1:0][1:0][VCN-1:0] scfg, ncfg;`	`input [VCN-1:0][1:0][VCN-1:0] scfg, ncfg;`
`input [VCN-1:0][3:0][VCN-1:0] wcfg, ecfg, lcfg;`	`input [VCN-1:0][3:0][VCN-1:0] wcfg, ecfg, lcfg;`


`// ANDed wires`	`// ANDed wires`
`wire [VCN-1:0][SCN-1:0][1:0][VCN-1:0] tos0, tos1, tos2, tos3; // the wires to the south output port`	`wire [VCN-1:0][SCN-1:0][1:0][VCN-1:0] tos0, tos1, tos2, tos3; // the wires to the south output port`
`wire [VCN-1:0][SCN-1:0][3:0][VCN-1:0] tow0, tow1, tow2, tow3; // the wires to the west output port`	`wire [VCN-1:0][SCN-1:0][3:0][VCN-1:0] tow0, tow1, tow2, tow3; // the wires to the west output port`
`wire [VCN-1:0][SCN-1:0][1:0][VCN-1:0] ton0, ton1, ton2, ton3; // the wires to the north output port`	`wire [VCN-1:0][SCN-1:0][1:0][VCN-1:0] ton0, ton1, ton2, ton3; // the wires to the north output port`
`wire [VCN-1:0][SCN-1:0][3:0][VCN-1:0] toe0, toe1, toe2, toe3; // the wires to the east output port`	`wire [VCN-1:0][SCN-1:0][3:0][VCN-1:0] toe0, toe1, toe2, toe3; // the wires to the east output port`
Line 96...	Line 105...
`wire [VCN-1:0][SCN-1:0][3:0][VCN-1:0] isa; // ack back to south`	`wire [VCN-1:0][SCN-1:0][3:0][VCN-1:0] isa; // ack back to south`
`wire [VCN-1:0][SCN-1:0][1:0][VCN-1:0] iwa; // ack back to west`	`wire [VCN-1:0][SCN-1:0][1:0][VCN-1:0] iwa; // ack back to west`
`wire [VCN-1:0][SCN-1:0][3:0][VCN-1:0] ina; // ack back to north`	`wire [VCN-1:0][SCN-1:0][3:0][VCN-1:0] ina; // ack back to north`
`wire [VCN-1:0][SCN-1:0][1:0][VCN-1:0] iea; // ack back to east`	`wire [VCN-1:0][SCN-1:0][1:0][VCN-1:0] iea; // ack back to east`
`wire [VCN-1:0][SCN-1:0][3:0][VCN-1:0] ila; // ack back to local`	`wire [VCN-1:0][SCN-1:0][3:0][VCN-1:0] ila; // ack back to local`
	`ifdef ENABLE_BUFFERED_CLOS
	`wire [VCN-1:0][SCN-1:0][1:0][VCN-1:0] tosad, tosa4, tonad, tona4;`
	`wire [VCN-1:0][SCN-1:0][3:0][VCN-1:0] towad, towa4, toead, toea4, tolad, tola4;`
	`endif
`else // !`ifdef ENABLE_CHANNEL_SLICING	`else // !`ifdef ENABLE_CHANNEL_SLICING
`wire [VCN-1:0][1:0][VCN-1:0] tos4, tosa; // the wires to the south output port`	`wire [VCN-1:0][1:0][VCN-1:0] tos4, tosa; // the wires to the south output port`
`wire [VCN-1:0][3:0][VCN-1:0] tow4, towa; // the wires to the west output port`	`wire [VCN-1:0][3:0][VCN-1:0] tow4, towa; // the wires to the west output port`
`wire [VCN-1:0][1:0][VCN-1:0] ton4, tona; // the wires to the north output port`	`wire [VCN-1:0][1:0][VCN-1:0] ton4, tona; // the wires to the north output port`
`wire [VCN-1:0][3:0][VCN-1:0] toe4, toea; // the wires to the east output port`	`wire [VCN-1:0][3:0][VCN-1:0] toe4, toea; // the wires to the east output port`
Line 110...	Line 122...
`wire [VCN-1:0][1:0][VCN-1:0] iwa; // ack back to west`	`wire [VCN-1:0][1:0][VCN-1:0] iwa; // ack back to west`
`wire [VCN-1:0][3:0][VCN-1:0] ina; // ack back to north`	`wire [VCN-1:0][3:0][VCN-1:0] ina; // ack back to north`
`wire [VCN-1:0][1:0][VCN-1:0] iea; // ack back to east`	`wire [VCN-1:0][1:0][VCN-1:0] iea; // ack back to east`
`wire [VCN-1:0][3:0][VCN-1:0] ila; // ack back to local`	`wire [VCN-1:0][3:0][VCN-1:0] ila; // ack back to local`

	`ifdef ENABLE_BUFFERED_CLOS
	`wire [VCN-1:0][1:0][VCN-1:0] tosad, tosa4, tonad, tona4;`
	`wire [VCN-1:0][3:0][VCN-1:0] towad, towa4, toead, toea4, tolad, tola4;`
	`endif
`endif // !`ifdef ENABLE_CHANNEL_SLICING	`endif // !`ifdef ENABLE_CHANNEL_SLICING

`// generate`	`// generate`
`genvar i, j, k;`	`genvar i, j, k;`

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`and AL1 (tos1[i][k][1][j], li1[j][k], scfg[i][1][j]);`	`and AL1 (tos1[i][k][1][j], li1[j][k], scfg[i][1][j]);`
`and AL2 (tos2[i][k][1][j], li2[j][k], scfg[i][1][j]);`	`and AL2 (tos2[i][k][1][j], li2[j][k], scfg[i][1][j]);`
`and AL3 (tos3[i][k][1][j], li3[j][k], scfg[i][1][j]);`	`and AL3 (tos3[i][k][1][j], li3[j][k], scfg[i][1][j]);`
`ifdef ENABLE_CHANNEL_SLICING	`ifdef ENABLE_CHANNEL_SLICING
`and AN4 (tos4[i][k][0][j], ni4[j][k], scfg[i][0][j]);`	`and AN4 (tos4[i][k][0][j], ni4[j][k], scfg[i][0][j]);`
`and ANA (tosa[i][k][0][j], soa[i][k], scfg[i][0][j]);`
`and AL4 (tos4[i][k][1][j], li4[j][k], scfg[i][1][j]);`	`and AL4 (tos4[i][k][1][j], li4[j][k], scfg[i][1][j]);`
	`ifdef ENABLE_BUFFERED_CLOS
	`and ALAd (tosad[i][k][1][j], soa[i][k], scfg[i][1][j]);`
	`and ANAd (tosad[i][k][0][j], soa[i][k], scfg[i][0][j]);`
	`c2 ALA4 (.q(tosa4[i][k][1][j]), .a0(soa4[i][k]), .a1(scfg[i][1][j]));`
	`c2 ANA4 (.q(tosa4[i][k][0][j]), .a0(soa4[i][k]), .a1(scfg[i][0][j]));`
	`assign tosa[i][k][1][j] = tosad[i][k][1][j] \| tosa4[i][k][1][j];`
	`assign tosa[i][k][0][j] = tosad[i][k][0][j] \| tosa4[i][k][0][j];`
	`else
`and ALA (tosa[i][k][1][j], soa[i][k], scfg[i][1][j]);`	`and ALA (tosa[i][k][1][j], soa[i][k], scfg[i][1][j]);`
	`and ANA (tosa[i][k][0][j], soa[i][k], scfg[i][0][j]);`
	`endif
`endif	`endif
`end // block: SC`	`end // block: SC`
`ifndef ENABLE_CHANNEL_SLICING	`ifndef ENABLE_CHANNEL_SLICING
`and AN4 (tos4[i][0][j], ni4[j], scfg[i][0][j]);`	`and AN4 (tos4[i][0][j], ni4[j], scfg[i][0][j]);`
`and ANA (tosa[i][0][j], soa[i], scfg[i][0][j]);`
`and AL4 (tos4[i][1][j], li4[j], scfg[i][1][j]);`	`and AL4 (tos4[i][1][j], li4[j], scfg[i][1][j]);`
	`ifdef ENABLE_BUFFERED_CLOS
	`and ANAd (tosad[i][0][j], soa[i], scfg[i][0][j]);`
	`and ALAd (tosad[i][1][j], soa[i], scfg[i][1][j]);`
	`c2 ANA4 (.q(tosa4[i][0][j]), .a0(soa4[i]), .a1(scfg[i][0][j]));`
	`c2 ALA4 (.q(tosa4[i][1][j]), .a0(soa4[i]), .a1(scfg[i][1][j]));`
	`assign tosa[i][0][j] = tosad[i][0][j] \| tosa4[i][0][j];`
	`assign tosa[i][1][j] = tosad[i][0][j] \| tosa4[i][1][j];`
	`else
	`and ANA (tosa[i][0][j], soa[i], scfg[i][0][j]);`
`and ALA (tosa[i][1][j], soa[i], scfg[i][1][j]);`	`and ALA (tosa[i][1][j], soa[i], scfg[i][1][j]);`
`endif	`endif
	`endif
`end // block: V`	`end // block: V`

`for(k=0; k<SCN; k++) begin: SCOR`	`for(k=0; k<SCN; k++) begin: SCOR`
`assign so0[i][k] = \|(tos0[i][k][0]\|tos0[i][k][1]);`	`assign so0[i][k] = \|(tos0[i][k][0]\|tos0[i][k][1]);`
`assign so1[i][k] = \|(tos1[i][k][0]\|tos1[i][k][1]);`	`assign so1[i][k] = \|(tos1[i][k][0]\|tos1[i][k][1]);`
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`and AL1 (tow1[i][k][3][j], li1[j][k], wcfg[i][3][j]);`	`and AL1 (tow1[i][k][3][j], li1[j][k], wcfg[i][3][j]);`
`and AL2 (tow2[i][k][3][j], li2[j][k], wcfg[i][3][j]);`	`and AL2 (tow2[i][k][3][j], li2[j][k], wcfg[i][3][j]);`
`and AL3 (tow3[i][k][3][j], li3[j][k], wcfg[i][3][j]);`	`and AL3 (tow3[i][k][3][j], li3[j][k], wcfg[i][3][j]);`
`ifdef ENABLE_CHANNEL_SLICING	`ifdef ENABLE_CHANNEL_SLICING
`and AS4 (tow4[i][k][0][j], si4[j][k], wcfg[i][0][j]);`	`and AS4 (tow4[i][k][0][j], si4[j][k], wcfg[i][0][j]);`
`and ASA (towa[i][k][0][j], woa[i][k], wcfg[i][0][j]);`
`and AN4 (tow4[i][k][1][j], ni4[j][k], wcfg[i][1][j]);`	`and AN4 (tow4[i][k][1][j], ni4[j][k], wcfg[i][1][j]);`
`and ANA (towa[i][k][1][j], woa[i][k], wcfg[i][1][j]);`
`and AE4 (tow4[i][k][2][j], ei4[j][k], wcfg[i][2][j]);`	`and AE4 (tow4[i][k][2][j], ei4[j][k], wcfg[i][2][j]);`
`and AEA (towa[i][k][2][j], woa[i][k], wcfg[i][2][j]);`
`and AL4 (tow4[i][k][3][j], li4[j][k], wcfg[i][3][j]);`	`and AL4 (tow4[i][k][3][j], li4[j][k], wcfg[i][3][j]);`
	`ifdef ENABLE_BUFFERED_CLOS
	`and ASAd (towad[i][k][0][j], woa[i][k], wcfg[i][0][j]);`
	`and ANAd (towad[i][k][1][j], woa[i][k], wcfg[i][1][j]);`
	`and AEAd (towad[i][k][2][j], woa[i][k], wcfg[i][2][j]);`
	`and ALAd (towad[i][k][3][j], woa[i][k], wcfg[i][3][j]);`
	`c2 ASA4 (.q(towa4[i][k][0][j]), .a0(woa4[i][k]), .a1(wcfg[i][0][j]));`
	`c2 ANA4 (.q(towa4[i][k][1][j]), .a0(woa4[i][k]), .a1(wcfg[i][1][j]));`
	`c2 AEA4 (.q(towa4[i][k][2][j]), .a0(woa4[i][k]), .a1(wcfg[i][2][j]));`
	`c2 ALA4 (.q(towa4[i][k][3][j]), .a0(woa4[i][k]), .a1(wcfg[i][3][j]));`
	`assign towa[i][k][0][j] = towad[i][k][0][j] \| towa4[i][k][0][j];`
	`assign towa[i][k][1][j] = towad[i][k][1][j] \| towa4[i][k][1][j];`
	`assign towa[i][k][2][j] = towad[i][k][2][j] \| towa4[i][k][2][j];`
	`assign towa[i][k][3][j] = towad[i][k][3][j] \| towa4[i][k][3][j];`
	`else
	`and ASA (towa[i][k][0][j], woa[i][k], wcfg[i][0][j]);`
	`and ANA (towa[i][k][1][j], woa[i][k], wcfg[i][1][j]);`
	`and AEA (towa[i][k][2][j], woa[i][k], wcfg[i][2][j]);`
`and ALA (towa[i][k][3][j], woa[i][k], wcfg[i][3][j]);`	`and ALA (towa[i][k][3][j], woa[i][k], wcfg[i][3][j]);`
`endif	`endif
	`endif
`end // block: SC`	`end // block: SC`
`ifndef ENABLE_CHANNEL_SLICING	`ifndef ENABLE_CHANNEL_SLICING
`and AS4 (tow4[i][0][j], si4[j], wcfg[i][0][j]);`	`and AS4 (tow4[i][0][j], si4[j], wcfg[i][0][j]);`
`and ASA (towa[i][0][j], woa[i], wcfg[i][0][j]);`
`and AN4 (tow4[i][1][j], ni4[j], wcfg[i][1][j]);`	`and AN4 (tow4[i][1][j], ni4[j], wcfg[i][1][j]);`
`and ANA (towa[i][1][j], woa[i], wcfg[i][1][j]);`
`and AE4 (tow4[i][2][j], ei4[j], wcfg[i][2][j]);`	`and AE4 (tow4[i][2][j], ei4[j], wcfg[i][2][j]);`
`and AEA (towa[i][2][j], woa[i], wcfg[i][2][j]);`
`and AL4 (tow4[i][3][j], li4[j], wcfg[i][3][j]);`	`and AL4 (tow4[i][3][j], li4[j], wcfg[i][3][j]);`
	`ifdef ENABLE_BUFFERED_CLOS
	`and ASAd (towad[i][0][j], woa[i], wcfg[i][0][j]);`
	`and ANAd (towad[i][1][j], woa[i], wcfg[i][1][j]);`
	`and AEAd (towad[i][2][j], woa[i], wcfg[i][2][j]);`
	`and ALAd (towad[i][3][j], woa[i], wcfg[i][3][j]);`
	`c2 ASA4 (.q(towa4[i][0][j]), .a0(woa4[i]), .a1(wcfg[i][0][j]));`
	`c2 ANA4 (.q(towa4[i][1][j]), .a0(woa4[i]), .a1(wcfg[i][1][j]));`
	`c2 AEA4 (.q(towa4[i][2][j]), .a0(woa4[i]), .a1(wcfg[i][2][j]));`
	`c2 ALA4 (.q(towa4[i][3][j]), .a0(woa4[i]), .a1(wcfg[i][3][j]));`
	`assign towa[i][0][j] = towad[i][0][j] \| towa4[i][0][j];`
	`assign towa[i][1][j] = towad[i][1][j] \| towa4[i][1][j];`
	`assign towa[i][2][j] = towad[i][2][j] \| towa4[i][2][j];`
	`assign towa[i][3][j] = towad[i][3][j] \| towa4[i][3][j];`
	`else
	`and ASA (towa[i][0][j], woa[i], wcfg[i][0][j]);`
	`and ANA (towa[i][1][j], woa[i], wcfg[i][1][j]);`
	`and AEA (towa[i][2][j], woa[i], wcfg[i][2][j]);`
`and ALA (towa[i][3][j], woa[i], wcfg[i][3][j]);`	`and ALA (towa[i][3][j], woa[i], wcfg[i][3][j]);`
`endif	`endif
	`endif
`end // block: V`	`end // block: V`

`for(k=0; k<SCN; k++) begin: SCOR`	`for(k=0; k<SCN; k++) begin: SCOR`
`assign wo0[i][k] = \|(tow0[i][k][0]\|tow0[i][k][1]\|tow0[i][k][2]\|tow0[i][k][3]);`	`assign wo0[i][k] = \|(tow0[i][k][0]\|tow0[i][k][1]\|tow0[i][k][2]\|tow0[i][k][3]);`
`assign wo1[i][k] = \|(tow1[i][k][0]\|tow1[i][k][1]\|tow1[i][k][2]\|tow1[i][k][3]);`	`assign wo1[i][k] = \|(tow1[i][k][0]\|tow1[i][k][1]\|tow1[i][k][2]\|tow1[i][k][3]);`
Line 233...	Line 297...
`and AL1 (ton1[i][k][1][j], li1[j][k], ncfg[i][1][j]);`	`and AL1 (ton1[i][k][1][j], li1[j][k], ncfg[i][1][j]);`
`and AL2 (ton2[i][k][1][j], li2[j][k], ncfg[i][1][j]);`	`and AL2 (ton2[i][k][1][j], li2[j][k], ncfg[i][1][j]);`
`and AL3 (ton3[i][k][1][j], li3[j][k], ncfg[i][1][j]);`	`and AL3 (ton3[i][k][1][j], li3[j][k], ncfg[i][1][j]);`
`ifdef ENABLE_CHANNEL_SLICING	`ifdef ENABLE_CHANNEL_SLICING
`and AS4 (ton4[i][k][0][j], si4[j][k], ncfg[i][0][j]);`	`and AS4 (ton4[i][k][0][j], si4[j][k], ncfg[i][0][j]);`
`and ASA (tona[i][k][0][j], noa[i][k], ncfg[i][0][j]);`
`and AL4 (ton4[i][k][1][j], li4[j][k], ncfg[i][1][j]);`	`and AL4 (ton4[i][k][1][j], li4[j][k], ncfg[i][1][j]);`
	`ifdef ENABLE_BUFFERED_CLOS
	`and ASAd (tonad[i][k][0][j], noa[i][k], ncfg[i][0][j]);`
	`and ALAd (tonad[i][k][1][j], noa[i][k], ncfg[i][1][j]);`
	`c2 ASA4 (.q(tona4[i][k][0][j]), .a0(noa4[i][k]), .a1(ncfg[i][0][j]));`
	`c2 ALA4 (.q(tona4[i][k][1][j]), .a0(noa4[i][k]), .a1(ncfg[i][1][j]));`
	`assign tona[i][k][0][j] = tonad[i][k][0][j] \| tona4[i][k][0][j];`
	`assign tona[i][k][1][j] = tonad[i][k][1][j] \| tona4[i][k][1][j];`
	`else
	`and ASA (tona[i][k][0][j], noa[i][k], ncfg[i][0][j]);`
`and ALA (tona[i][k][1][j], noa[i][k], ncfg[i][1][j]);`	`and ALA (tona[i][k][1][j], noa[i][k], ncfg[i][1][j]);`
`endif	`endif
	`endif
`end // block: SC`	`end // block: SC`
`ifndef ENABLE_CHANNEL_SLICING	`ifndef ENABLE_CHANNEL_SLICING
`and AS4 (ton4[i][0][j], si4[j], ncfg[i][0][j]);`	`and AS4 (ton4[i][0][j], si4[j], ncfg[i][0][j]);`
`and ASA (tona[i][0][j], noa[i], ncfg[i][0][j]);`
`and AL4 (ton4[i][1][j], li4[j], ncfg[i][1][j]);`	`and AL4 (ton4[i][1][j], li4[j], ncfg[i][1][j]);`
	`ifdef ENABLE_BUFFERED_CLOS
	`and ASAd (tonad[i][0][j], noa[i], ncfg[i][0][j]);`
	`and ALAd (tonad[i][1][j], noa[i], ncfg[i][1][j]);`
	`c2 ASA4 (.q(tona4[i][0][j]), .a0(noa4[i]), .a1(ncfg[i][0][j]));`
	`c2 ALA4 (.q(tona4[i][1][j]), .a0(noa4[i]), .a1(ncfg[i][1][j]));`
	`assign tona[i][0][j] = tonad[i][0][j] \| tona4[i][0][j];`
	`assign tona[i][1][j] = tonad[i][1][j] \| tona4[i][1][j];`
	`else
	`and ASA (tona[i][0][j], noa[i], ncfg[i][0][j]);`
`and ALA (tona[i][1][j], noa[i], ncfg[i][1][j]);`	`and ALA (tona[i][1][j], noa[i], ncfg[i][1][j]);`
`endif	`endif
	`endif
`end // block: V`	`end // block: V`

`for(k=0; k<SCN; k++) begin: SCOR`	`for(k=0; k<SCN; k++) begin: SCOR`
`assign no0[i][k] = \|(ton0[i][k][0]\|ton0[i][k][1]);`	`assign no0[i][k] = \|(ton0[i][k][0]\|ton0[i][k][1]);`
`assign no1[i][k] = \|(ton1[i][k][0]\|ton1[i][k][1]);`	`assign no1[i][k] = \|(ton1[i][k][0]\|ton1[i][k][1]);`
Line 284...	Line 366...
`and AL1 (toe1[i][k][3][j], li1[j][k], ecfg[i][3][j]);`	`and AL1 (toe1[i][k][3][j], li1[j][k], ecfg[i][3][j]);`
`and AL2 (toe2[i][k][3][j], li2[j][k], ecfg[i][3][j]);`	`and AL2 (toe2[i][k][3][j], li2[j][k], ecfg[i][3][j]);`
`and AL3 (toe3[i][k][3][j], li3[j][k], ecfg[i][3][j]);`	`and AL3 (toe3[i][k][3][j], li3[j][k], ecfg[i][3][j]);`
`ifdef ENABLE_CHANNEL_SLICING	`ifdef ENABLE_CHANNEL_SLICING
`and AS4 (toe4[i][k][0][j], si4[j][k], ecfg[i][0][j]);`	`and AS4 (toe4[i][k][0][j], si4[j][k], ecfg[i][0][j]);`
`and ASA (toea[i][k][0][j], eoa[i][k], ecfg[i][0][j]);`
`and AW4 (toe4[i][k][1][j], wi4[j][k], ecfg[i][1][j]);`	`and AW4 (toe4[i][k][1][j], wi4[j][k], ecfg[i][1][j]);`
`and AWA (toea[i][k][1][j], eoa[i][k], ecfg[i][1][j]);`
`and AN4 (toe4[i][k][2][j], ni4[j][k], ecfg[i][2][j]);`	`and AN4 (toe4[i][k][2][j], ni4[j][k], ecfg[i][2][j]);`
`and ANA (toea[i][k][2][j], eoa[i][k], ecfg[i][2][j]);`
`and AL4 (toe4[i][k][3][j], li4[j][k], ecfg[i][3][j]);`	`and AL4 (toe4[i][k][3][j], li4[j][k], ecfg[i][3][j]);`
	`ifdef ENABLE_BUFFERED_CLOS
	`and ASAd (toead[i][k][0][j], eoa[i][k], ecfg[i][0][j]);`
	`and AWAd (toead[i][k][1][j], eoa[i][k], ecfg[i][1][j]);`
	`and ANAd (toead[i][k][2][j], eoa[i][k], ecfg[i][2][j]);`
	`and ALAd (toead[i][k][3][j], eoa[i][k], ecfg[i][3][j]);`
	`c2 ASA4 (.q(toea4[i][k][0][j]), .a0(eoa4[i][k]), .a1(ecfg[i][0][j]));`
	`c2 AWA4 (.q(toea4[i][k][1][j]), .a0(eoa4[i][k]), .a1(ecfg[i][1][j]));`
	`c2 ANA4 (.q(toea4[i][k][2][j]), .a0(eoa4[i][k]), .a1(ecfg[i][2][j]));`
	`c2 ALA4 (.q(toea4[i][k][3][j]), .a0(eoa4[i][k]), .a1(ecfg[i][3][j]));`
	`assign toea[i][k][0][j] = toead[i][k][0][j] \| toea4[i][k][0][j];`
	`assign toea[i][k][1][j] = toead[i][k][1][j] \| toea4[i][k][1][j];`
	`assign toea[i][k][2][j] = toead[i][k][2][j] \| toea4[i][k][2][j];`
	`assign toea[i][k][3][j] = toead[i][k][3][j] \| toea4[i][k][3][j];`
	`else
	`and ASA (toea[i][k][0][j], eoa[i][k], ecfg[i][0][j]);`
	`and AWA (toea[i][k][1][j], eoa[i][k], ecfg[i][1][j]);`
	`and ANA (toea[i][k][2][j], eoa[i][k], ecfg[i][2][j]);`
`and ALA (toea[i][k][3][j], eoa[i][k], ecfg[i][3][j]);`	`and ALA (toea[i][k][3][j], eoa[i][k], ecfg[i][3][j]);`
`endif	`endif
	`endif
`end // block: SC`	`end // block: SC`
`ifndef ENABLE_CHANNEL_SLICING	`ifndef ENABLE_CHANNEL_SLICING
`and AS4 (toe4[i][0][j], si4[j], ecfg[i][0][j]);`	`and AS4 (toe4[i][0][j], si4[j], ecfg[i][0][j]);`
`and ASA (toea[i][0][j], eoa[i], ecfg[i][0][j]);`
`and AW4 (toe4[i][1][j], wi4[j], ecfg[i][1][j]);`	`and AW4 (toe4[i][1][j], wi4[j], ecfg[i][1][j]);`
`and AWA (toea[i][1][j], eoa[i], ecfg[i][1][j]);`
`and AN4 (toe4[i][2][j], ni4[j], ecfg[i][2][j]);`	`and AN4 (toe4[i][2][j], ni4[j], ecfg[i][2][j]);`
`and ANA (toea[i][2][j], eoa[i], ecfg[i][2][j]);`
`and AL4 (toe4[i][3][j], li4[j], ecfg[i][3][j]);`	`and AL4 (toe4[i][3][j], li4[j], ecfg[i][3][j]);`
	`ifdef ENABLE_BUFFERED_CLOS
	`and ASAd (toead[i][0][j], eoa[i], ecfg[i][0][j]);`
	`and AWAd (toead[i][1][j], eoa[i], ecfg[i][1][j]);`
	`and ANAd (toead[i][2][j], eoa[i], ecfg[i][2][j]);`
	`and ALAd (toead[i][3][j], eoa[i], ecfg[i][3][j]);`
	`c2 ASA4 (.q(toea4[i][0][j]), .a0(eoa4[i]), .a1(ecfg[i][0][j]));`
	`c2 AWA4 (.q(toea4[i][1][j]), .a0(eoa4[i]), .a1(ecfg[i][1][j]));`
	`c2 ANA4 (.q(toea4[i][2][j]), .a0(eoa4[i]), .a1(ecfg[i][2][j]));`
	`c2 ALA4 (.q(toea4[i][3][j]), .a0(eoa4[i]), .a1(ecfg[i][3][j]));`
	`assign toea[i][0][j] = toead[i][0][j] \| toea4[i][0][j];`
	`assign toea[i][1][j] = toead[i][1][j] \| toea4[i][1][j];`
	`assign toea[i][2][j] = toead[i][2][j] \| toea4[i][2][j];`
	`assign toea[i][3][j] = toead[i][3][j] \| toea4[i][3][j];`
	`else
	`and ASA (toea[i][0][j], eoa[i], ecfg[i][0][j]);`
	`and AWA (toea[i][1][j], eoa[i], ecfg[i][1][j]);`
	`and ANA (toea[i][2][j], eoa[i], ecfg[i][2][j]);`
`and ALA (toea[i][3][j], eoa[i], ecfg[i][3][j]);`	`and ALA (toea[i][3][j], eoa[i], ecfg[i][3][j]);`
`endif	`endif
	`endif
`end // block: V`	`end // block: V`

`for(k=0; k<SCN; k++) begin: SCOR`	`for(k=0; k<SCN; k++) begin: SCOR`
`assign eo0[i][k] = \|(toe0[i][k][0]\|toe0[i][k][1]\|toe0[i][k][2]\|toe0[i][k][3]);`	`assign eo0[i][k] = \|(toe0[i][k][0]\|toe0[i][k][1]\|toe0[i][k][2]\|toe0[i][k][3]);`
`assign eo1[i][k] = \|(toe1[i][k][0]\|toe1[i][k][1]\|toe1[i][k][2]\|toe1[i][k][3]);`	`assign eo1[i][k] = \|(toe1[i][k][0]\|toe1[i][k][1]\|toe1[i][k][2]\|toe1[i][k][3]);`
Line 344...	Line 456...
`and AE1 (tol1[i][k][3][j], ei1[j][k], lcfg[i][3][j]);`	`and AE1 (tol1[i][k][3][j], ei1[j][k], lcfg[i][3][j]);`
`and AE2 (tol2[i][k][3][j], ei2[j][k], lcfg[i][3][j]);`	`and AE2 (tol2[i][k][3][j], ei2[j][k], lcfg[i][3][j]);`
`and AE3 (tol3[i][k][3][j], ei3[j][k], lcfg[i][3][j]);`	`and AE3 (tol3[i][k][3][j], ei3[j][k], lcfg[i][3][j]);`
`ifdef ENABLE_CHANNEL_SLICING	`ifdef ENABLE_CHANNEL_SLICING
`and AS4 (tol4[i][k][0][j], si4[j][k], lcfg[i][0][j]);`	`and AS4 (tol4[i][k][0][j], si4[j][k], lcfg[i][0][j]);`
`and ASA (tola[i][k][0][j], loa[i][k], lcfg[i][0][j]);`
`and AW4 (tol4[i][k][1][j], wi4[j][k], lcfg[i][1][j]);`	`and AW4 (tol4[i][k][1][j], wi4[j][k], lcfg[i][1][j]);`
`and AWA (tola[i][k][1][j], loa[i][k], lcfg[i][1][j]);`
`and AN4 (tol4[i][k][2][j], ni4[j][k], lcfg[i][2][j]);`	`and AN4 (tol4[i][k][2][j], ni4[j][k], lcfg[i][2][j]);`
`and ANA (tola[i][k][2][j], loa[i][k], lcfg[i][2][j]);`
`and AE4 (tol4[i][k][3][j], ei4[j][k], lcfg[i][3][j]);`	`and AE4 (tol4[i][k][3][j], ei4[j][k], lcfg[i][3][j]);`
	`ifdef ENABLE_BUFFERED_CLOS
	`and ASAd (tolad[i][k][0][j], loa[i][k], lcfg[i][0][j]);`
	`and AWAd (tolad[i][k][1][j], loa[i][k], lcfg[i][1][j]);`
	`and ANAd (tolad[i][k][2][j], loa[i][k], lcfg[i][2][j]);`
	`and AEAd (tolad[i][k][3][j], loa[i][k], lcfg[i][3][j]);`
	`c2 ASA4 (.q(tola4[i][k][0][j]), .a0(loa4[i][k]), .a1(lcfg[i][0][j]));`
	`c2 AWA4 (.q(tola4[i][k][1][j]), .a0(loa4[i][k]), .a1(lcfg[i][1][j]));`
	`c2 ANA4 (.q(tola4[i][k][2][j]), .a0(loa4[i][k]), .a1(lcfg[i][2][j]));`
	`c2 AEA4 (.q(tola4[i][k][3][j]), .a0(loa4[i][k]), .a1(lcfg[i][3][j]));`
	`assign tola[i][k][0][j] = tolad[i][k][0][j] \| tola4[i][k][0][j];`
	`assign tola[i][k][1][j] = tolad[i][k][1][j] \| tola4[i][k][1][j];`
	`assign tola[i][k][2][j] = tolad[i][k][2][j] \| tola4[i][k][2][j];`
	`assign tola[i][k][3][j] = tolad[i][k][3][j] \| tola4[i][k][3][j];`
	`else
	`and ASA (tola[i][k][0][j], loa[i][k], lcfg[i][0][j]);`
	`and AWA (tola[i][k][1][j], loa[i][k], lcfg[i][1][j]);`
	`and ANA (tola[i][k][2][j], loa[i][k], lcfg[i][2][j]);`
`and AEA (tola[i][k][3][j], loa[i][k], lcfg[i][3][j]);`	`and AEA (tola[i][k][3][j], loa[i][k], lcfg[i][3][j]);`
`endif	`endif
	`endif
`end // block: SC`	`end // block: SC`
`ifndef ENABLE_CHANNEL_SLICING	`ifndef ENABLE_CHANNEL_SLICING
`and AS4 (tol4[i][0][j], si4[j], lcfg[i][0][j]);`	`and AS4 (tol4[i][0][j], si4[j], lcfg[i][0][j]);`
`and ASA (tola[i][0][j], loa[i], lcfg[i][0][j]);`
`and AW4 (tol4[i][1][j], wi4[j], lcfg[i][1][j]);`	`and AW4 (tol4[i][1][j], wi4[j], lcfg[i][1][j]);`
`and AWA (tola[i][1][j], loa[i], lcfg[i][1][j]);`
`and AN4 (tol4[i][2][j], ni4[j], lcfg[i][2][j]);`	`and AN4 (tol4[i][2][j], ni4[j], lcfg[i][2][j]);`
`and ANA (tola[i][2][j], loa[i], lcfg[i][2][j]);`
`and AE4 (tol4[i][3][j], ei4[j], lcfg[i][3][j]);`	`and AE4 (tol4[i][3][j], ei4[j], lcfg[i][3][j]);`
	`ifdef ENABLE_BUFFERED_CLOS
	`and ASAd (tolad[i][0][j], loa[i], lcfg[i][0][j]);`
	`and AWAd (tolad[i][1][j], loa[i], lcfg[i][1][j]);`
	`and ANAd (tolad[i][2][j], loa[i], lcfg[i][2][j]);`
	`and AEAd (tolad[i][3][j], loa[i], lcfg[i][3][j]);`
	`c2 ASA4 (.q(tola4[i][0][j]), .a0(loa4[i]), .a1(lcfg[i][0][j]));`
	`c2 AWA4 (.q(tola4[i][1][j]), .a0(loa4[i]), .a1(lcfg[i][1][j]));`
	`c2 ANA4 (.q(tola4[i][2][j]), .a0(loa4[i]), .a1(lcfg[i][2][j]));`
	`c2 AEA4 (.q(tola4[i][3][j]), .a0(loa4[i]), .a1(lcfg[i][3][j]));`
	`assign tola[i][0][j] = tolad[i][0][j] \| tola4[i][0][j];`
	`assign tola[i][1][j] = tolad[i][1][j] \| tola4[i][1][j];`
	`assign tola[i][2][j] = tolad[i][2][j] \| tola4[i][2][j];`
	`assign tola[i][3][j] = tolad[i][3][j] \| tola4[i][3][j];`
	`else
	`and ASA (tola[i][0][j], loa[i], lcfg[i][0][j]);`
	`and AWA (tola[i][1][j], loa[i], lcfg[i][1][j]);`
	`and ANA (tola[i][2][j], loa[i], lcfg[i][2][j]);`
`and AEA (tola[i][3][j], loa[i], lcfg[i][3][j]);`	`and AEA (tola[i][3][j], loa[i], lcfg[i][3][j]);`
`endif	`endif
	`endif
`end // block: V`	`end // block: V`

`for(k=0; k<SCN; k++) begin: SCOR`	`for(k=0; k<SCN; k++) begin: SCOR`
`assign lo0[i][k] = \|(tol0[i][k][0]\|tol0[i][k][1]\|tol0[i][k][2]\|tol0[i][k][3]);`	`assign lo0[i][k] = \|(tol0[i][k][0]\|tol0[i][k][1]\|tol0[i][k][2]\|tol0[i][k][3]);`
`assign lo1[i][k] = \|(tol1[i][k][0]\|tol1[i][k][1]\|tol1[i][k][2]\|tol1[i][k][3]);`	`assign lo1[i][k] = \|(tol1[i][k][0]\|tol1[i][k][1]\|tol1[i][k][2]\|tol1[i][k][3]);`

Line 15...

 History:

 History:

 21/08/2009  Initial version. <wsong83@gmail.com>

 21/08/2009  Initial version. <wsong83@gmail.com>

 20/09/2010  Supporting channel slicing and SDM using macro difinitions. <wsong83@gmail.com>

 20/09/2010  Supporting channel slicing and SDM using macro difinitions. <wsong83@gmail.com>

 23/05/2011  Clean up for opensource. <wsong83@gmail.com>

 23/05/2011  Clean up for opensource. <wsong83@gmail.com>

 22/06/2011  Prepare to support buffered Clos. <wsong83@gmail.com>

*/

*/

// the router structure definitions

// the router structure definitions

`include "define.v"

`include "define.v"

module dcb_xy (/*AUTOARG*/

module dcb_xy (

   // Outputs

   // Outputs

   so0, so1, so2, so3, wo0, wo1, wo2, wo3, no0, no1, no2, no3, eo0,

   so0, so1, so2, so3, wo0, wo1, wo2, wo3, no0, no1, no2, no3, eo0,

   eo1, eo2, eo3, lo0, lo1, lo2, lo3, so4, sia, wo4, wia, no4, nia,

   eo1, eo2, eo3, lo0, lo1, lo2, lo3, so4, sia, wo4, wia, no4, nia,

   eo4, eia, lo4, lia,

   eo4, eia, lo4, lia,

   // Inputs

   // Inputs

   si0, si1, si2, si3, wi0, wi1, wi2, wi3, ni0, ni1, ni2, ni3, ei0,

   si0, si1, si2, si3, wi0, wi1, wi2, wi3, ni0, ni1, ni2, ni3, ei0,

   ei1, ei2, ei3, li0, li1, li2, li3, si4, soa, wi4, woa, ni4, noa,

   ei1, ei2, ei3, li0, li1, li2, li3, si4, soa, wi4, woa, ni4, noa,

   ei4, eoa, li4, loa, scfg, ncfg, wcfg, ecfg, lcfg

   ei4, eoa, li4, loa, scfg, ncfg, wcfg, ecfg, lcfg

`ifdef ENABLE_BUFFERED_CLOS

   , soa4, woa4, noa4, eoa4, loa4

`endif

) ;

) ;

   parameter VCN = 1;           // number of virtual circuits per port

   parameter VCN = 1;           // number of virtual circuits per port

   parameter VCW = 8;           // the datawidth of a single virtual circuit

   parameter VCW = 8;           // the datawidth of a single virtual circuit

   parameter SCN = VCW/2;       // number of 1-of-4 sub-channels in one virtual circuit

   parameter SCN = VCW/2;       // number of 1-of-4 sub-channels in one virtual circuit

Line 59...

Line 63...

   output [VCN-1:0][SCN-1:0]   no4, nia;

   output [VCN-1:0][SCN-1:0]   no4, nia;

   input [VCN-1:0][SCN-1:0]    ei4, eoa;

   input [VCN-1:0][SCN-1:0]    ei4, eoa;

   output [VCN-1:0][SCN-1:0]   eo4, eia;

   output [VCN-1:0][SCN-1:0]   eo4, eia;

   input [VCN-1:0][SCN-1:0]    li4, loa;

   input [VCN-1:0][SCN-1:0]    li4, loa;

   output [VCN-1:0][SCN-1:0]   lo4, lia;

   output [VCN-1:0][SCN-1:0]   lo4, lia;

 `ifdef ENABLE_BUFFERED_CLOS

   input [VCN-1:0][SCN-1:0]    soa4, woa4, noa4, eoa4, loa4;

 `endif

`else // !`ifdef ENABLE_CHANNEL_SLICING

`else // !`ifdef ENABLE_CHANNEL_SLICING

   input [VCN-1:0]              si4, soa;

   input [VCN-1:0]              si4, soa;

   output [VCN-1:0]             so4, sia;

   output [VCN-1:0]             so4, sia;

   input [VCN-1:0]              wi4, woa;

   input [VCN-1:0]              wi4, woa;

   output [VCN-1:0]             wo4, wia;

   output [VCN-1:0]             wo4, wia;

Line 70...

Line 77...

   output [VCN-1:0]             no4, nia;

   output [VCN-1:0]             no4, nia;

   input [VCN-1:0]              ei4, eoa;

   input [VCN-1:0]              ei4, eoa;

   output [VCN-1:0]             eo4, eia;

   output [VCN-1:0]             eo4, eia;

   input [VCN-1:0]              li4, loa;

   input [VCN-1:0]              li4, loa;

   output [VCN-1:0]             lo4, lia;

   output [VCN-1:0]             lo4, lia;

 `ifdef ENABLE_BUFFERED_CLOS

   input [VCN-1:0]              soa4, woa4, noa4, eoa4, loa4;

 `endif

`endif

`endif

   // configurations

   // configurations

   input [VCN-1:0][1:0][VCN-1:0]        scfg, ncfg;

   input [VCN-1:0][1:0][VCN-1:0]        scfg, ncfg;

   input [VCN-1:0][3:0][VCN-1:0]        wcfg, ecfg, lcfg;

   input [VCN-1:0][3:0][VCN-1:0]        wcfg, ecfg, lcfg;

   // ANDed wires

   // ANDed wires

   wire [VCN-1:0][SCN-1:0][1:0][VCN-1:0] tos0, tos1, tos2, tos3;     // the wires to the south output port

   wire [VCN-1:0][SCN-1:0][1:0][VCN-1:0] tos0, tos1, tos2, tos3;     // the wires to the south output port

   wire [VCN-1:0][SCN-1:0][3:0][VCN-1:0] tow0, tow1, tow2, tow3;     // the wires to the west output port

   wire [VCN-1:0][SCN-1:0][3:0][VCN-1:0] tow0, tow1, tow2, tow3;     // the wires to the west output port

   wire [VCN-1:0][SCN-1:0][1:0][VCN-1:0] ton0, ton1, ton2, ton3;     // the wires to the north output port

   wire [VCN-1:0][SCN-1:0][1:0][VCN-1:0] ton0, ton1, ton2, ton3;     // the wires to the north output port

   wire [VCN-1:0][SCN-1:0][3:0][VCN-1:0] toe0, toe1, toe2, toe3;     // the wires to the east output port

   wire [VCN-1:0][SCN-1:0][3:0][VCN-1:0] toe0, toe1, toe2, toe3;     // the wires to the east output port

Line 96...

Line 105...

   wire [VCN-1:0][SCN-1:0][3:0][VCN-1:0] isa;                        // ack back to south

   wire [VCN-1:0][SCN-1:0][3:0][VCN-1:0] isa;                        // ack back to south

   wire [VCN-1:0][SCN-1:0][1:0][VCN-1:0] iwa;                        // ack back to west

   wire [VCN-1:0][SCN-1:0][1:0][VCN-1:0] iwa;                        // ack back to west

   wire [VCN-1:0][SCN-1:0][3:0][VCN-1:0] ina;                        // ack back to north

   wire [VCN-1:0][SCN-1:0][3:0][VCN-1:0] ina;                        // ack back to north

   wire [VCN-1:0][SCN-1:0][1:0][VCN-1:0] iea;                        // ack back to east

   wire [VCN-1:0][SCN-1:0][1:0][VCN-1:0] iea;                        // ack back to east

   wire [VCN-1:0][SCN-1:0][3:0][VCN-1:0] ila;                        // ack back to local

   wire [VCN-1:0][SCN-1:0][3:0][VCN-1:0] ila;                        // ack back to local

 `ifdef ENABLE_BUFFERED_CLOS

   wire [VCN-1:0][SCN-1:0][1:0][VCN-1:0] tosad, tosa4, tonad, tona4;

   wire [VCN-1:0][SCN-1:0][3:0][VCN-1:0] towad, towa4, toead, toea4, tolad, tola4;

 `endif

`else // !`ifdef ENABLE_CHANNEL_SLICING

`else // !`ifdef ENABLE_CHANNEL_SLICING

   wire [VCN-1:0][1:0][VCN-1:0] tos4, tosa;                 // the wires to the south output port

   wire [VCN-1:0][1:0][VCN-1:0] tos4, tosa;                 // the wires to the south output port

   wire [VCN-1:0][3:0][VCN-1:0] tow4, towa;                 // the wires to the west output port

   wire [VCN-1:0][3:0][VCN-1:0] tow4, towa;                 // the wires to the west output port

   wire [VCN-1:0][1:0][VCN-1:0] ton4, tona;                 // the wires to the north output port

   wire [VCN-1:0][1:0][VCN-1:0] ton4, tona;                 // the wires to the north output port

   wire [VCN-1:0][3:0][VCN-1:0] toe4, toea;                 // the wires to the east output port

   wire [VCN-1:0][3:0][VCN-1:0] toe4, toea;                 // the wires to the east output port

Line 110...

Line 122...

   wire [VCN-1:0][1:0][VCN-1:0] iwa;                        // ack back to west

   wire [VCN-1:0][1:0][VCN-1:0] iwa;                        // ack back to west

   wire [VCN-1:0][3:0][VCN-1:0] ina;                        // ack back to north

   wire [VCN-1:0][3:0][VCN-1:0] ina;                        // ack back to north

   wire [VCN-1:0][1:0][VCN-1:0] iea;                        // ack back to east

   wire [VCN-1:0][1:0][VCN-1:0] iea;                        // ack back to east

   wire [VCN-1:0][3:0][VCN-1:0] ila;                        // ack back to local

   wire [VCN-1:0][3:0][VCN-1:0] ila;                        // ack back to local

 `ifdef ENABLE_BUFFERED_CLOS

   wire [VCN-1:0][1:0][VCN-1:0] tosad, tosa4, tonad, tona4;

   wire [VCN-1:0][3:0][VCN-1:0] towad, towa4, toead, toea4, tolad, tola4;

 `endif

`endif // !`ifdef ENABLE_CHANNEL_SLICING

`endif // !`ifdef ENABLE_CHANNEL_SLICING

   // generate

   // generate

   genvar                     i, j, k;

   genvar                     i, j, k;

Line 131...

Line 147...

              and AL1 (tos1[i][k][1][j], li1[j][k], scfg[i][1][j]);

              and AL1 (tos1[i][k][1][j], li1[j][k], scfg[i][1][j]);

              and AL2 (tos2[i][k][1][j], li2[j][k], scfg[i][1][j]);

              and AL2 (tos2[i][k][1][j], li2[j][k], scfg[i][1][j]);

              and AL3 (tos3[i][k][1][j], li3[j][k], scfg[i][1][j]);

              and AL3 (tos3[i][k][1][j], li3[j][k], scfg[i][1][j]);

`ifdef ENABLE_CHANNEL_SLICING

`ifdef ENABLE_CHANNEL_SLICING

              and AN4 (tos4[i][k][0][j], ni4[j][k], scfg[i][0][j]);

              and AN4 (tos4[i][k][0][j], ni4[j][k], scfg[i][0][j]);

              and ANA (tosa[i][k][0][j], soa[i][k], scfg[i][0][j]);

              and AL4 (tos4[i][k][1][j], li4[j][k], scfg[i][1][j]);

              and AL4 (tos4[i][k][1][j], li4[j][k], scfg[i][1][j]);

 `ifdef ENABLE_BUFFERED_CLOS

              and ALAd (tosad[i][k][1][j], soa[i][k], scfg[i][1][j]);

              and ANAd (tosad[i][k][0][j], soa[i][k], scfg[i][0][j]);

              c2 ALA4 (.q(tosa4[i][k][1][j]), .a0(soa4[i][k]), .a1(scfg[i][1][j]));

              c2 ANA4 (.q(tosa4[i][k][0][j]), .a0(soa4[i][k]), .a1(scfg[i][0][j]));

              assign tosa[i][k][1][j] = tosad[i][k][1][j] | tosa4[i][k][1][j];

              assign tosa[i][k][0][j] = tosad[i][k][0][j] | tosa4[i][k][0][j];

 `else

              and ALA (tosa[i][k][1][j], soa[i][k], scfg[i][1][j]);

              and ALA (tosa[i][k][1][j], soa[i][k], scfg[i][1][j]);

              and ANA (tosa[i][k][0][j], soa[i][k], scfg[i][0][j]);

 `endif

`endif

`endif

           end // block: SC

           end // block: SC

`ifndef ENABLE_CHANNEL_SLICING

`ifndef ENABLE_CHANNEL_SLICING

           and AN4 (tos4[i][0][j], ni4[j], scfg[i][0][j]);

           and AN4 (tos4[i][0][j], ni4[j], scfg[i][0][j]);

           and ANA (tosa[i][0][j], soa[i], scfg[i][0][j]);

           and AL4 (tos4[i][1][j], li4[j], scfg[i][1][j]);

           and AL4 (tos4[i][1][j], li4[j], scfg[i][1][j]);

 `ifdef ENABLE_BUFFERED_CLOS

           and ANAd (tosad[i][0][j], soa[i], scfg[i][0][j]);

           and ALAd (tosad[i][1][j], soa[i], scfg[i][1][j]);

           c2 ANA4 (.q(tosa4[i][0][j]), .a0(soa4[i]), .a1(scfg[i][0][j]));

           c2 ALA4 (.q(tosa4[i][1][j]), .a0(soa4[i]), .a1(scfg[i][1][j]));

           assign tosa[i][0][j] = tosad[i][0][j] | tosa4[i][0][j];

           assign tosa[i][1][j] = tosad[i][0][j] | tosa4[i][1][j];

 `else

           and ANA (tosa[i][0][j], soa[i], scfg[i][0][j]);

           and ALA (tosa[i][1][j], soa[i], scfg[i][1][j]);

           and ALA (tosa[i][1][j], soa[i], scfg[i][1][j]);

`endif

`endif

`endif

        end // block: V

        end // block: V

        for(k=0; k<SCN; k++) begin: SCOR

        for(k=0; k<SCN; k++) begin: SCOR

           assign so0[i][k] = |(tos0[i][k][0]|tos0[i][k][1]);

           assign so0[i][k] = |(tos0[i][k][0]|tos0[i][k][1]);

           assign so1[i][k] = |(tos1[i][k][0]|tos1[i][k][1]);

           assign so1[i][k] = |(tos1[i][k][0]|tos1[i][k][1]);

Line 182...

Line 216...

              and AL1 (tow1[i][k][3][j], li1[j][k], wcfg[i][3][j]);

              and AL1 (tow1[i][k][3][j], li1[j][k], wcfg[i][3][j]);

              and AL2 (tow2[i][k][3][j], li2[j][k], wcfg[i][3][j]);

              and AL2 (tow2[i][k][3][j], li2[j][k], wcfg[i][3][j]);

              and AL3 (tow3[i][k][3][j], li3[j][k], wcfg[i][3][j]);

              and AL3 (tow3[i][k][3][j], li3[j][k], wcfg[i][3][j]);

`ifdef ENABLE_CHANNEL_SLICING

`ifdef ENABLE_CHANNEL_SLICING

              and AS4 (tow4[i][k][0][j], si4[j][k], wcfg[i][0][j]);

              and AS4 (tow4[i][k][0][j], si4[j][k], wcfg[i][0][j]);

              and ASA (towa[i][k][0][j], woa[i][k], wcfg[i][0][j]);

              and AN4 (tow4[i][k][1][j], ni4[j][k], wcfg[i][1][j]);

              and AN4 (tow4[i][k][1][j], ni4[j][k], wcfg[i][1][j]);

              and ANA (towa[i][k][1][j], woa[i][k], wcfg[i][1][j]);

              and AE4 (tow4[i][k][2][j], ei4[j][k], wcfg[i][2][j]);

              and AE4 (tow4[i][k][2][j], ei4[j][k], wcfg[i][2][j]);

              and AEA (towa[i][k][2][j], woa[i][k], wcfg[i][2][j]);

              and AL4 (tow4[i][k][3][j], li4[j][k], wcfg[i][3][j]);

              and AL4 (tow4[i][k][3][j], li4[j][k], wcfg[i][3][j]);

 `ifdef ENABLE_BUFFERED_CLOS

              and ASAd (towad[i][k][0][j], woa[i][k], wcfg[i][0][j]);

              and ANAd (towad[i][k][1][j], woa[i][k], wcfg[i][1][j]);

              and AEAd (towad[i][k][2][j], woa[i][k], wcfg[i][2][j]);

              and ALAd (towad[i][k][3][j], woa[i][k], wcfg[i][3][j]);

              c2 ASA4 (.q(towa4[i][k][0][j]), .a0(woa4[i][k]), .a1(wcfg[i][0][j]));

              c2 ANA4 (.q(towa4[i][k][1][j]), .a0(woa4[i][k]), .a1(wcfg[i][1][j]));

              c2 AEA4 (.q(towa4[i][k][2][j]), .a0(woa4[i][k]), .a1(wcfg[i][2][j]));

              c2 ALA4 (.q(towa4[i][k][3][j]), .a0(woa4[i][k]), .a1(wcfg[i][3][j]));

              assign towa[i][k][0][j] = towad[i][k][0][j] | towa4[i][k][0][j];

              assign towa[i][k][1][j] = towad[i][k][1][j] | towa4[i][k][1][j];

              assign towa[i][k][2][j] = towad[i][k][2][j] | towa4[i][k][2][j];

              assign towa[i][k][3][j] = towad[i][k][3][j] | towa4[i][k][3][j];

 `else

              and ASA (towa[i][k][0][j], woa[i][k], wcfg[i][0][j]);

              and ANA (towa[i][k][1][j], woa[i][k], wcfg[i][1][j]);

              and AEA (towa[i][k][2][j], woa[i][k], wcfg[i][2][j]);

              and ALA (towa[i][k][3][j], woa[i][k], wcfg[i][3][j]);

              and ALA (towa[i][k][3][j], woa[i][k], wcfg[i][3][j]);

`endif

`endif

`endif

           end // block: SC

           end // block: SC

`ifndef ENABLE_CHANNEL_SLICING

`ifndef ENABLE_CHANNEL_SLICING

           and AS4 (tow4[i][0][j], si4[j], wcfg[i][0][j]);

           and AS4 (tow4[i][0][j], si4[j], wcfg[i][0][j]);

           and ASA (towa[i][0][j], woa[i], wcfg[i][0][j]);

           and AN4 (tow4[i][1][j], ni4[j], wcfg[i][1][j]);

           and AN4 (tow4[i][1][j], ni4[j], wcfg[i][1][j]);

           and ANA (towa[i][1][j], woa[i], wcfg[i][1][j]);

           and AE4 (tow4[i][2][j], ei4[j], wcfg[i][2][j]);

           and AE4 (tow4[i][2][j], ei4[j], wcfg[i][2][j]);

           and AEA (towa[i][2][j], woa[i], wcfg[i][2][j]);

           and AL4 (tow4[i][3][j], li4[j], wcfg[i][3][j]);

           and AL4 (tow4[i][3][j], li4[j], wcfg[i][3][j]);

 `ifdef ENABLE_BUFFERED_CLOS

           and ASAd (towad[i][0][j], woa[i], wcfg[i][0][j]);

           and ANAd (towad[i][1][j], woa[i], wcfg[i][1][j]);

           and AEAd (towad[i][2][j], woa[i], wcfg[i][2][j]);

           and ALAd (towad[i][3][j], woa[i], wcfg[i][3][j]);

           c2 ASA4 (.q(towa4[i][0][j]), .a0(woa4[i]), .a1(wcfg[i][0][j]));

           c2 ANA4 (.q(towa4[i][1][j]), .a0(woa4[i]), .a1(wcfg[i][1][j]));

           c2 AEA4 (.q(towa4[i][2][j]), .a0(woa4[i]), .a1(wcfg[i][2][j]));

           c2 ALA4 (.q(towa4[i][3][j]), .a0(woa4[i]), .a1(wcfg[i][3][j]));

           assign towa[i][0][j] = towad[i][0][j] | towa4[i][0][j];

           assign towa[i][1][j] = towad[i][1][j] | towa4[i][1][j];

           assign towa[i][2][j] = towad[i][2][j] | towa4[i][2][j];

           assign towa[i][3][j] = towad[i][3][j] | towa4[i][3][j];

 `else

           and ASA (towa[i][0][j], woa[i], wcfg[i][0][j]);

           and ANA (towa[i][1][j], woa[i], wcfg[i][1][j]);

           and AEA (towa[i][2][j], woa[i], wcfg[i][2][j]);

           and ALA (towa[i][3][j], woa[i], wcfg[i][3][j]);

           and ALA (towa[i][3][j], woa[i], wcfg[i][3][j]);

`endif

`endif

`endif

        end // block: V

        end // block: V

        for(k=0; k<SCN; k++) begin: SCOR

        for(k=0; k<SCN; k++) begin: SCOR

           assign wo0[i][k] = |(tow0[i][k][0]|tow0[i][k][1]|tow0[i][k][2]|tow0[i][k][3]);

           assign wo0[i][k] = |(tow0[i][k][0]|tow0[i][k][1]|tow0[i][k][2]|tow0[i][k][3]);

           assign wo1[i][k] = |(tow1[i][k][0]|tow1[i][k][1]|tow1[i][k][2]|tow1[i][k][3]);

           assign wo1[i][k] = |(tow1[i][k][0]|tow1[i][k][1]|tow1[i][k][2]|tow1[i][k][3]);

Line 233...

Line 297...

              and AL1 (ton1[i][k][1][j], li1[j][k], ncfg[i][1][j]);

              and AL1 (ton1[i][k][1][j], li1[j][k], ncfg[i][1][j]);

              and AL2 (ton2[i][k][1][j], li2[j][k], ncfg[i][1][j]);

              and AL2 (ton2[i][k][1][j], li2[j][k], ncfg[i][1][j]);

              and AL3 (ton3[i][k][1][j], li3[j][k], ncfg[i][1][j]);

              and AL3 (ton3[i][k][1][j], li3[j][k], ncfg[i][1][j]);

`ifdef ENABLE_CHANNEL_SLICING

`ifdef ENABLE_CHANNEL_SLICING

              and AS4 (ton4[i][k][0][j], si4[j][k], ncfg[i][0][j]);

              and AS4 (ton4[i][k][0][j], si4[j][k], ncfg[i][0][j]);

              and ASA (tona[i][k][0][j], noa[i][k], ncfg[i][0][j]);

              and AL4 (ton4[i][k][1][j], li4[j][k], ncfg[i][1][j]);

              and AL4 (ton4[i][k][1][j], li4[j][k], ncfg[i][1][j]);

 `ifdef ENABLE_BUFFERED_CLOS

              and ASAd (tonad[i][k][0][j], noa[i][k], ncfg[i][0][j]);

              and ALAd (tonad[i][k][1][j], noa[i][k], ncfg[i][1][j]);

              c2 ASA4 (.q(tona4[i][k][0][j]), .a0(noa4[i][k]), .a1(ncfg[i][0][j]));

              c2 ALA4 (.q(tona4[i][k][1][j]), .a0(noa4[i][k]), .a1(ncfg[i][1][j]));

              assign tona[i][k][0][j] = tonad[i][k][0][j] | tona4[i][k][0][j];

              assign tona[i][k][1][j] = tonad[i][k][1][j] | tona4[i][k][1][j];

 `else

              and ASA (tona[i][k][0][j], noa[i][k], ncfg[i][0][j]);

              and ALA (tona[i][k][1][j], noa[i][k], ncfg[i][1][j]);

              and ALA (tona[i][k][1][j], noa[i][k], ncfg[i][1][j]);

`endif

`endif

`endif

           end // block: SC

           end // block: SC

`ifndef ENABLE_CHANNEL_SLICING

`ifndef ENABLE_CHANNEL_SLICING

           and AS4 (ton4[i][0][j], si4[j], ncfg[i][0][j]);

           and AS4 (ton4[i][0][j], si4[j], ncfg[i][0][j]);

           and ASA (tona[i][0][j], noa[i], ncfg[i][0][j]);

           and AL4 (ton4[i][1][j], li4[j], ncfg[i][1][j]);

           and AL4 (ton4[i][1][j], li4[j], ncfg[i][1][j]);

 `ifdef ENABLE_BUFFERED_CLOS

           and ASAd (tonad[i][0][j], noa[i], ncfg[i][0][j]);

           and ALAd (tonad[i][1][j], noa[i], ncfg[i][1][j]);

           c2 ASA4 (.q(tona4[i][0][j]), .a0(noa4[i]), .a1(ncfg[i][0][j]));

           c2 ALA4 (.q(tona4[i][1][j]), .a0(noa4[i]), .a1(ncfg[i][1][j]));

           assign tona[i][0][j] = tonad[i][0][j] | tona4[i][0][j];

           assign tona[i][1][j] = tonad[i][1][j] | tona4[i][1][j];

 `else

           and ASA (tona[i][0][j], noa[i], ncfg[i][0][j]);

           and ALA (tona[i][1][j], noa[i], ncfg[i][1][j]);

           and ALA (tona[i][1][j], noa[i], ncfg[i][1][j]);

`endif

`endif

`endif

        end // block: V

        end // block: V

        for(k=0; k<SCN; k++) begin: SCOR

        for(k=0; k<SCN; k++) begin: SCOR

           assign no0[i][k] = |(ton0[i][k][0]|ton0[i][k][1]);

           assign no0[i][k] = |(ton0[i][k][0]|ton0[i][k][1]);

           assign no1[i][k] = |(ton1[i][k][0]|ton1[i][k][1]);

           assign no1[i][k] = |(ton1[i][k][0]|ton1[i][k][1]);

Line 284...

Line 366...

              and AL1 (toe1[i][k][3][j], li1[j][k], ecfg[i][3][j]);

              and AL1 (toe1[i][k][3][j], li1[j][k], ecfg[i][3][j]);

              and AL2 (toe2[i][k][3][j], li2[j][k], ecfg[i][3][j]);

              and AL2 (toe2[i][k][3][j], li2[j][k], ecfg[i][3][j]);

              and AL3 (toe3[i][k][3][j], li3[j][k], ecfg[i][3][j]);

              and AL3 (toe3[i][k][3][j], li3[j][k], ecfg[i][3][j]);

`ifdef ENABLE_CHANNEL_SLICING

`ifdef ENABLE_CHANNEL_SLICING

              and AS4 (toe4[i][k][0][j], si4[j][k], ecfg[i][0][j]);

              and AS4 (toe4[i][k][0][j], si4[j][k], ecfg[i][0][j]);

              and ASA (toea[i][k][0][j], eoa[i][k], ecfg[i][0][j]);

              and AW4 (toe4[i][k][1][j], wi4[j][k], ecfg[i][1][j]);

              and AW4 (toe4[i][k][1][j], wi4[j][k], ecfg[i][1][j]);

              and AWA (toea[i][k][1][j], eoa[i][k], ecfg[i][1][j]);

              and AN4 (toe4[i][k][2][j], ni4[j][k], ecfg[i][2][j]);

              and AN4 (toe4[i][k][2][j], ni4[j][k], ecfg[i][2][j]);

              and ANA (toea[i][k][2][j], eoa[i][k], ecfg[i][2][j]);

              and AL4 (toe4[i][k][3][j], li4[j][k], ecfg[i][3][j]);

              and AL4 (toe4[i][k][3][j], li4[j][k], ecfg[i][3][j]);

 `ifdef ENABLE_BUFFERED_CLOS

              and ASAd (toead[i][k][0][j], eoa[i][k], ecfg[i][0][j]);

              and AWAd (toead[i][k][1][j], eoa[i][k], ecfg[i][1][j]);

              and ANAd (toead[i][k][2][j], eoa[i][k], ecfg[i][2][j]);

              and ALAd (toead[i][k][3][j], eoa[i][k], ecfg[i][3][j]);

              c2 ASA4 (.q(toea4[i][k][0][j]), .a0(eoa4[i][k]), .a1(ecfg[i][0][j]));

              c2 AWA4 (.q(toea4[i][k][1][j]), .a0(eoa4[i][k]), .a1(ecfg[i][1][j]));

              c2 ANA4 (.q(toea4[i][k][2][j]), .a0(eoa4[i][k]), .a1(ecfg[i][2][j]));

              c2 ALA4 (.q(toea4[i][k][3][j]), .a0(eoa4[i][k]), .a1(ecfg[i][3][j]));

              assign toea[i][k][0][j] = toead[i][k][0][j] | toea4[i][k][0][j];

              assign toea[i][k][1][j] = toead[i][k][1][j] | toea4[i][k][1][j];

              assign toea[i][k][2][j] = toead[i][k][2][j] | toea4[i][k][2][j];

              assign toea[i][k][3][j] = toead[i][k][3][j] | toea4[i][k][3][j];

 `else

              and ASA (toea[i][k][0][j], eoa[i][k], ecfg[i][0][j]);

              and AWA (toea[i][k][1][j], eoa[i][k], ecfg[i][1][j]);

              and ANA (toea[i][k][2][j], eoa[i][k], ecfg[i][2][j]);

              and ALA (toea[i][k][3][j], eoa[i][k], ecfg[i][3][j]);

              and ALA (toea[i][k][3][j], eoa[i][k], ecfg[i][3][j]);

`endif

`endif

`endif

           end // block: SC

           end // block: SC

`ifndef ENABLE_CHANNEL_SLICING

`ifndef ENABLE_CHANNEL_SLICING

           and AS4 (toe4[i][0][j], si4[j], ecfg[i][0][j]);

           and AS4 (toe4[i][0][j], si4[j], ecfg[i][0][j]);

           and ASA (toea[i][0][j], eoa[i], ecfg[i][0][j]);

           and AW4 (toe4[i][1][j], wi4[j], ecfg[i][1][j]);

           and AW4 (toe4[i][1][j], wi4[j], ecfg[i][1][j]);

           and AWA (toea[i][1][j], eoa[i], ecfg[i][1][j]);

           and AN4 (toe4[i][2][j], ni4[j], ecfg[i][2][j]);

           and AN4 (toe4[i][2][j], ni4[j], ecfg[i][2][j]);

           and ANA (toea[i][2][j], eoa[i], ecfg[i][2][j]);

           and AL4 (toe4[i][3][j], li4[j], ecfg[i][3][j]);

           and AL4 (toe4[i][3][j], li4[j], ecfg[i][3][j]);

 `ifdef ENABLE_BUFFERED_CLOS

           and ASAd (toead[i][0][j], eoa[i], ecfg[i][0][j]);

           and AWAd (toead[i][1][j], eoa[i], ecfg[i][1][j]);

           and ANAd (toead[i][2][j], eoa[i], ecfg[i][2][j]);

           and ALAd (toead[i][3][j], eoa[i], ecfg[i][3][j]);

           c2 ASA4 (.q(toea4[i][0][j]), .a0(eoa4[i]), .a1(ecfg[i][0][j]));

           c2 AWA4 (.q(toea4[i][1][j]), .a0(eoa4[i]), .a1(ecfg[i][1][j]));

           c2 ANA4 (.q(toea4[i][2][j]), .a0(eoa4[i]), .a1(ecfg[i][2][j]));

           c2 ALA4 (.q(toea4[i][3][j]), .a0(eoa4[i]), .a1(ecfg[i][3][j]));

           assign toea[i][0][j] = toead[i][0][j] | toea4[i][0][j];

           assign toea[i][1][j] = toead[i][1][j] | toea4[i][1][j];

           assign toea[i][2][j] = toead[i][2][j] | toea4[i][2][j];

           assign toea[i][3][j] = toead[i][3][j] | toea4[i][3][j];

 `else

           and ASA (toea[i][0][j], eoa[i], ecfg[i][0][j]);

           and AWA (toea[i][1][j], eoa[i], ecfg[i][1][j]);

           and ANA (toea[i][2][j], eoa[i], ecfg[i][2][j]);

           and ALA (toea[i][3][j], eoa[i], ecfg[i][3][j]);

           and ALA (toea[i][3][j], eoa[i], ecfg[i][3][j]);

`endif

`endif

`endif

        end // block: V

        end // block: V

        for(k=0; k<SCN; k++) begin: SCOR

        for(k=0; k<SCN; k++) begin: SCOR

           assign eo0[i][k] = |(toe0[i][k][0]|toe0[i][k][1]|toe0[i][k][2]|toe0[i][k][3]);

           assign eo0[i][k] = |(toe0[i][k][0]|toe0[i][k][1]|toe0[i][k][2]|toe0[i][k][3]);

           assign eo1[i][k] = |(toe1[i][k][0]|toe1[i][k][1]|toe1[i][k][2]|toe1[i][k][3]);

           assign eo1[i][k] = |(toe1[i][k][0]|toe1[i][k][1]|toe1[i][k][2]|toe1[i][k][3]);

Line 344...

Line 456...

              and AE1 (tol1[i][k][3][j], ei1[j][k], lcfg[i][3][j]);

              and AE1 (tol1[i][k][3][j], ei1[j][k], lcfg[i][3][j]);

              and AE2 (tol2[i][k][3][j], ei2[j][k], lcfg[i][3][j]);

              and AE2 (tol2[i][k][3][j], ei2[j][k], lcfg[i][3][j]);

              and AE3 (tol3[i][k][3][j], ei3[j][k], lcfg[i][3][j]);

              and AE3 (tol3[i][k][3][j], ei3[j][k], lcfg[i][3][j]);

`ifdef ENABLE_CHANNEL_SLICING

`ifdef ENABLE_CHANNEL_SLICING

              and AS4 (tol4[i][k][0][j], si4[j][k], lcfg[i][0][j]);

              and AS4 (tol4[i][k][0][j], si4[j][k], lcfg[i][0][j]);

              and ASA (tola[i][k][0][j], loa[i][k], lcfg[i][0][j]);

              and AW4 (tol4[i][k][1][j], wi4[j][k], lcfg[i][1][j]);

              and AW4 (tol4[i][k][1][j], wi4[j][k], lcfg[i][1][j]);

              and AWA (tola[i][k][1][j], loa[i][k], lcfg[i][1][j]);

              and AN4 (tol4[i][k][2][j], ni4[j][k], lcfg[i][2][j]);

              and AN4 (tol4[i][k][2][j], ni4[j][k], lcfg[i][2][j]);

              and ANA (tola[i][k][2][j], loa[i][k], lcfg[i][2][j]);

              and AE4 (tol4[i][k][3][j], ei4[j][k], lcfg[i][3][j]);

              and AE4 (tol4[i][k][3][j], ei4[j][k], lcfg[i][3][j]);

 `ifdef ENABLE_BUFFERED_CLOS

              and ASAd (tolad[i][k][0][j], loa[i][k], lcfg[i][0][j]);

              and AWAd (tolad[i][k][1][j], loa[i][k], lcfg[i][1][j]);

              and ANAd (tolad[i][k][2][j], loa[i][k], lcfg[i][2][j]);

              and AEAd (tolad[i][k][3][j], loa[i][k], lcfg[i][3][j]);

              c2 ASA4 (.q(tola4[i][k][0][j]), .a0(loa4[i][k]), .a1(lcfg[i][0][j]));

              c2 AWA4 (.q(tola4[i][k][1][j]), .a0(loa4[i][k]), .a1(lcfg[i][1][j]));

              c2 ANA4 (.q(tola4[i][k][2][j]), .a0(loa4[i][k]), .a1(lcfg[i][2][j]));

              c2 AEA4 (.q(tola4[i][k][3][j]), .a0(loa4[i][k]), .a1(lcfg[i][3][j]));

              assign tola[i][k][0][j] = tolad[i][k][0][j] | tola4[i][k][0][j];

              assign tola[i][k][1][j] = tolad[i][k][1][j] | tola4[i][k][1][j];

              assign tola[i][k][2][j] = tolad[i][k][2][j] | tola4[i][k][2][j];

              assign tola[i][k][3][j] = tolad[i][k][3][j] | tola4[i][k][3][j];

 `else

              and ASA (tola[i][k][0][j], loa[i][k], lcfg[i][0][j]);

              and AWA (tola[i][k][1][j], loa[i][k], lcfg[i][1][j]);

              and ANA (tola[i][k][2][j], loa[i][k], lcfg[i][2][j]);

              and AEA (tola[i][k][3][j], loa[i][k], lcfg[i][3][j]);

              and AEA (tola[i][k][3][j], loa[i][k], lcfg[i][3][j]);

`endif

`endif

`endif

           end // block: SC

           end // block: SC

`ifndef ENABLE_CHANNEL_SLICING

`ifndef ENABLE_CHANNEL_SLICING

           and AS4 (tol4[i][0][j], si4[j], lcfg[i][0][j]);

           and AS4 (tol4[i][0][j], si4[j], lcfg[i][0][j]);

           and ASA (tola[i][0][j], loa[i], lcfg[i][0][j]);

           and AW4 (tol4[i][1][j], wi4[j], lcfg[i][1][j]);

           and AW4 (tol4[i][1][j], wi4[j], lcfg[i][1][j]);

           and AWA (tola[i][1][j], loa[i], lcfg[i][1][j]);

           and AN4 (tol4[i][2][j], ni4[j], lcfg[i][2][j]);

           and AN4 (tol4[i][2][j], ni4[j], lcfg[i][2][j]);

           and ANA (tola[i][2][j], loa[i], lcfg[i][2][j]);

           and AE4 (tol4[i][3][j], ei4[j], lcfg[i][3][j]);

           and AE4 (tol4[i][3][j], ei4[j], lcfg[i][3][j]);

 `ifdef ENABLE_BUFFERED_CLOS

           and ASAd (tolad[i][0][j], loa[i], lcfg[i][0][j]);

           and AWAd (tolad[i][1][j], loa[i], lcfg[i][1][j]);

           and ANAd (tolad[i][2][j], loa[i], lcfg[i][2][j]);

           and AEAd (tolad[i][3][j], loa[i], lcfg[i][3][j]);

           c2 ASA4 (.q(tola4[i][0][j]), .a0(loa4[i]), .a1(lcfg[i][0][j]));

           c2 AWA4 (.q(tola4[i][1][j]), .a0(loa4[i]), .a1(lcfg[i][1][j]));

           c2 ANA4 (.q(tola4[i][2][j]), .a0(loa4[i]), .a1(lcfg[i][2][j]));

           c2 AEA4 (.q(tola4[i][3][j]), .a0(loa4[i]), .a1(lcfg[i][3][j]));

           assign tola[i][0][j] = tolad[i][0][j] | tola4[i][0][j];

           assign tola[i][1][j] = tolad[i][1][j] | tola4[i][1][j];

           assign tola[i][2][j] = tolad[i][2][j] | tola4[i][2][j];

           assign tola[i][3][j] = tolad[i][3][j] | tola4[i][3][j];

 `else

           and ASA (tola[i][0][j], loa[i], lcfg[i][0][j]);

           and AWA (tola[i][1][j], loa[i], lcfg[i][1][j]);

           and ANA (tola[i][2][j], loa[i], lcfg[i][2][j]);

           and AEA (tola[i][3][j], loa[i], lcfg[i][3][j]);

           and AEA (tola[i][3][j], loa[i], lcfg[i][3][j]);

`endif

`endif

`endif

        end // block: V

        end // block: V

        for(k=0; k<SCN; k++) begin: SCOR

        for(k=0; k<SCN; k++) begin: SCOR

           assign lo0[i][k] = |(tol0[i][k][0]|tol0[i][k][1]|tol0[i][k][2]|tol0[i][k][3]);

           assign lo0[i][k] = |(tol0[i][k][0]|tol0[i][k][1]|tol0[i][k][2]|tol0[i][k][3]);

           assign lo1[i][k] = |(tol1[i][k][0]|tol1[i][k][1]|tol1[i][k][2]|tol1[i][k][3]);

           assign lo1[i][k] = |(tol1[i][k][0]|tol1[i][k][1]|tol1[i][k][2]|tol1[i][k][3]);

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[/] [async_sdm_noc/] [branches/] [clos_opt/] [common/] [src/] [dcb_xy.v] - Diff between revs 57 and 63