get rid of some gen begin/end msgs

pd
openpowerwtf 2 years ago
parent 0dcb681aad
commit 1cefef0726

@ -184,7 +184,6 @@ module tri_128x168_1w_0(




generate generate
begin
assign tidn = 1'b0; assign tidn = 1'b0;


if (addressbus_width < ramb_base_addr) if (addressbus_width < ramb_base_addr)
@ -244,7 +243,6 @@ module tri_128x168_1w_0(
end //ax end //ax
assign data_out[w * port_bitwidth:((w + 1) * port_bitwidth) - 1] = ramb_data_out[w][0:port_bitwidth - 1]; assign data_out[w * port_bitwidth:((w + 1) * port_bitwidth) - 1] = ramb_data_out[w][0:port_bitwidth - 1];
end //aw end //aw
end
endgenerate endgenerate


assign abst_scan_out = abst_scan_in; assign abst_scan_out = abst_scan_in;

@ -233,7 +233,7 @@ wire [0:scan_right] sov;
(* analysis_not_referenced="true" *) (* analysis_not_referenced="true" *)
wire unused; wire unused;


generate begin generate
// Read/Write Port Address Generate // Read/Write Port Address Generate
assign ramb_rd_addr[11:15] = 5'b0; assign ramb_rd_addr[11:15] = 5'b0;
assign ramb_wr_addr[11:15] = 5'b0; assign ramb_wr_addr[11:15] = 5'b0;
@ -385,7 +385,6 @@ generate begin
assign repr_scan_out = 1'b0; assign repr_scan_out = 1'b0;
assign bo_pc_failout = 4'h0; assign bo_pc_failout = 4'h0;
assign bo_pc_diagloop = 4'h0; assign bo_pc_diagloop = 4'h0;
end
endgenerate endgenerate


assign unused = |({ assign unused = |({
@ -461,8 +460,8 @@ tri_rlmreg_p #(.WIDTH(ways), .INIT(0), .NEEDS_SRESET(1)) rd_act_reg(
.dout(rd_act_q) .dout(rd_act_q)
); );


generate begin : wayReg generate
genvar way; //genvar way;
for (way=0; way<ways; way=way+1) begin : wayReg for (way=0; way<ways; way=way+1) begin : wayReg
// ############################################################### // ###############################################################
// ## LCB // ## LCB
@ -498,7 +497,6 @@ generate begin : wayReg
.qb(data_out_b_q[(way*port_bitwidth):((way+1)*port_bitwidth)-1]) .qb(data_out_b_q[(way*port_bitwidth):((way+1)*port_bitwidth)-1])
); );
end end
end
endgenerate endgenerate


assign siv[0:(2*port_bitwidth)-1] = {sov[1:(2*port_bitwidth)-1], func_scan_in[0]}; assign siv[0:(2*port_bitwidth)-1] = {sov[1:(2*port_bitwidth)-1], func_scan_in[0]};

@ -196,7 +196,6 @@ module tri_64x72_1r1w(
wire unused; wire unused;


generate generate
begin
assign tidn = 72'b0; assign tidn = 72'b0;
assign clk = nclk[0]; assign clk = nclk[0];
assign clk2x = nclk[2]; assign clk2x = nclk[2];
@ -312,6 +311,6 @@ module tri_64x72_1r1w(
assign bo_pc_diagloop = 1'b0; assign bo_pc_diagloop = 1'b0;


assign unused = | ({nclk[3:`NCLK_WIDTH-1], sg_0, abst_sl_thold_0, ary_nsl_thold_0, time_sl_thold_0, repr_sl_thold_0, scan_dis_dc_b, scan_diag_dc, ccflush_dc, clkoff_dc_b, d_mode_dc, mpw1_dc_b, mpw2_dc_b, delay_lclkr_dc, abist_di, abist_bw_odd, abist_bw_even, abist_wr_adr, abist_rd0_adr, wr_abst_act, rd0_abst_act, tc_lbist_ary_wrt_thru_dc, abist_ena_1, abist_g8t_rd0_comp_ena, abist_raw_dc_b, obs0_abist_cmp, rd0_act, tidn, lcb_bolt_sl_thold_0, pc_bo_enable_2, pc_bo_reset, pc_bo_unload, pc_bo_repair, pc_bo_shdata, pc_bo_select, tri_lcb_mpw1_dc_b, tri_lcb_mpw2_dc_b, tri_lcb_delay_lclkr_dc, tri_lcb_clkoff_dc_b, tri_lcb_act_dis_dc}); assign unused = | ({nclk[3:`NCLK_WIDTH-1], sg_0, abst_sl_thold_0, ary_nsl_thold_0, time_sl_thold_0, repr_sl_thold_0, scan_dis_dc_b, scan_diag_dc, ccflush_dc, clkoff_dc_b, d_mode_dc, mpw1_dc_b, mpw2_dc_b, delay_lclkr_dc, abist_di, abist_bw_odd, abist_bw_even, abist_wr_adr, abist_rd0_adr, wr_abst_act, rd0_abst_act, tc_lbist_ary_wrt_thru_dc, abist_ena_1, abist_g8t_rd0_comp_ena, abist_raw_dc_b, obs0_abist_cmp, rd0_act, tidn, lcb_bolt_sl_thold_0, pc_bo_enable_2, pc_bo_reset, pc_bo_unload, pc_bo_repair, pc_bo_shdata, pc_bo_select, tri_lcb_mpw1_dc_b, tri_lcb_mpw2_dc_b, tri_lcb_delay_lclkr_dc, tri_lcb_clkoff_dc_b, tri_lcb_act_dis_dc});
end
endgenerate endgenerate
endmodule endmodule

@ -57,17 +57,11 @@ module tri_aoi22(
wire [0:WIDTH-1] outB; wire [0:WIDTH-1] outB;


generate generate
begin : t
for (i = 0; i < WIDTH; i = i + 1) for (i = 0; i < WIDTH; i = i + 1)
begin : w begin : w

and I0(outA[i], a0[i], a1[i]); and I0(outA[i], a0[i], a1[i]);
and I1(outB[i], b0[i], b1[i]); and I1(outB[i], b0[i], b1[i]);
nor I2(y[i], outA[i], outB[i]); nor I2(y[i], outA[i], outB[i]);


end // block: w
end end

endgenerate endgenerate
endmodule endmodule

@ -94,7 +94,6 @@ module tri_aoi22_nlats_wlcb(
parameter [0:WIDTH-1] ZEROS = {WIDTH{1'b0}}; parameter [0:WIDTH-1] ZEROS = {WIDTH{1'b0}};


generate generate
begin
wire sreset; wire sreset;
wire [0:WIDTH-1] int_din; wire [0:WIDTH-1] int_din;
wire [0:WIDTH-1] din; wire [0:WIDTH-1] din;
@ -140,6 +139,5 @@ module tri_aoi22_nlats_wlcb(
assign scout = ZEROS; assign scout = ZEROS;


assign unused = d_mode | sg | delay_lclkr | mpw1_b | mpw2_b | vd | gd | (|nclk) | (|scin); assign unused = d_mode | sg | delay_lclkr | mpw1_b | mpw2_b | vd | gd | (|nclk) | (|scin);
end
endgenerate endgenerate
endmodule endmodule

@ -155,7 +155,6 @@ module tri_cam_32x143_1r1w1c_matchline(
{addr_in[0:51], comp_pgsize[0:2], comp_class[0:1], comp_extclass[0:1], comp_state[0:1], comp_pid[0:7], comp_thdid[0:3]})); {addr_in[0:51], comp_pgsize[0:2], comp_class[0:1], comp_extclass[0:1], comp_state[0:1], comp_pid[0:7], comp_thdid[0:3]}));


generate generate
begin
if (NUM_PGSIZES == 8) if (NUM_PGSIZES == 8)
begin : numpgsz8 begin : numpgsz8
// tie off unused signals // tie off unused signals
@ -466,6 +465,5 @@ module tri_cam_32x143_1r1w1c_matchline(
thdid_match & // ThdID compare thdid_match & // ThdID compare
pid_match & // PID compare pid_match & // PID compare
entry_v; // Valid entry_v; // Valid
end
endgenerate endgenerate
endmodule endmodule

@ -50,14 +50,8 @@ module tri_nand2(
genvar i; genvar i;


generate generate
begin : t for (i = 0; i < WIDTH; i = i + 1) begin : w
for (i = 0; i < WIDTH; i = i + 1)
begin : w

nand I0(y[i], a[i], b[i]); nand I0(y[i], a[i], b[i]);

end // block: w
end end

endgenerate endgenerate
endmodule endmodule

@ -73,7 +73,6 @@ module tri_nand2_nlats(
parameter [0:WIDTH-1] ZEROS = {WIDTH{1'b0}}; parameter [0:WIDTH-1] ZEROS = {WIDTH{1'b0}};


generate generate
begin
wire sreset; wire sreset;
wire [0:WIDTH-1] int_din; wire [0:WIDTH-1] int_din;
reg [0:WIDTH-1] int_dout; reg [0:WIDTH-1] int_dout;
@ -107,7 +106,6 @@ module tri_nand2_nlats(
assign vthold_b = {WIDTH{d2clk}}; assign vthold_b = {WIDTH{d2clk}};
assign vthold = {WIDTH{~d2clk}}; assign vthold = {WIDTH{~d2clk}};



always @(posedge lclk[0]) always @(posedge lclk[0])
begin: l begin: l
int_dout <= (((vact & vthold_b) | vsreset) & int_din) | (((vact_b | vthold) & vsreset_b) & int_dout); int_dout <= (((vact & vthold_b) | vsreset) & int_din) | (((vact_b | vthold) & vsreset_b) & int_dout);
@ -116,6 +114,5 @@ module tri_nand2_nlats(
assign scanout = ZEROS; assign scanout = ZEROS;


assign unused = | {vd, gd, lclk, scanin}; assign unused = | {vd, gd, lclk, scanin};
end
endgenerate endgenerate
endmodule endmodule

@ -52,15 +52,8 @@ module tri_nand3(
genvar i; genvar i;


generate generate
begin : t for (i = 0; i < WIDTH; i = i + 1) begin : w
for (i = 0; i < WIDTH; i = i + 1)
begin : w

nand I0(y[i], a[i], b[i], c[i]); nand I0(y[i], a[i], b[i], c[i]);


end // block: w
end end

endgenerate endgenerate
endmodule endmodule

@ -49,19 +49,11 @@ module tri_nand4(
input [0:WIDTH-1] b; input [0:WIDTH-1] b;
input [0:WIDTH-1] c; input [0:WIDTH-1] c;
input [0:WIDTH-1] d; input [0:WIDTH-1] d;
// tri_nand3
genvar i; genvar i;


generate generate
begin : t for (i = 0; i < WIDTH; i = i + 1) begin : w
for (i = 0; i < WIDTH; i = i + 1)
begin : w

nand I0(y[i], a[i], b[i], c[i], d[i]); nand I0(y[i], a[i], b[i], c[i], d[i]);


end // block: w
end end

endgenerate endgenerate
endmodule endmodule

@ -52,14 +52,8 @@ module tri_nor3(
genvar i; genvar i;


generate generate
begin : t for (i = 0; i < WIDTH; i = i + 1) begin : w
for (i = 0; i < WIDTH; i = i + 1)
begin : w

nor I0(y[i], a[i], b[i], c[i]); nor I0(y[i], a[i], b[i], c[i]);

end // block: w
end end

endgenerate endgenerate
endmodule endmodule

@ -53,14 +53,11 @@ module tri_oai21(
wire [0:WIDTH-1] outA; wire [0:WIDTH-1] outA;


generate generate
begin : t for (i = 0; i < WIDTH; i = i + 1) begin : w
for (i = 0; i < WIDTH; i = i + 1)
begin : w


or I0(outA[i], a0[i], a1[i]); or I0(outA[i], a0[i], a1[i]);
nand I2(y[i], outA[i], b0[i]); nand I2(y[i], outA[i], b0[i]);


end // block: w
end end


endgenerate endgenerate

@ -65,7 +65,6 @@ module tri_rlmlatch_p(vd, gd, nclk, act, force_t, thold_b, d_mode, sg, delay_lcl
// tri_rlmlatch_p // tri_rlmlatch_p


generate generate
begin
wire sreset; wire sreset;
wire int_din; wire int_din;
reg int_dout; reg int_dout;
@ -108,6 +107,6 @@ module tri_rlmlatch_p(vd, gd, nclk, act, force_t, thold_b, d_mode, sg, delay_lcl
assign scout = 1'b0; assign scout = 1'b0;


assign unused = d_mode | sg | delay_lclkr | mpw1_b | mpw2_b | scin | vd | gd | (|nclk); assign unused = d_mode | sg | delay_lclkr | mpw1_b | mpw2_b | scin | vd | gd | (|nclk);
end
endgenerate endgenerate
endmodule endmodule

@ -72,7 +72,6 @@ module tri_rlmreg_p(vd, gd, nclk, act, force_t, thold_b, d_mode, sg, delay_lclkr
// tri_rlmreg_p // tri_rlmreg_p


generate generate
begin
wire sreset; wire sreset;
wire [0:WIDTH-1] int_din; wire [0:WIDTH-1] int_din;
reg [0:WIDTH-1] int_dout; reg [0:WIDTH-1] int_dout;
@ -131,6 +130,6 @@ module tri_rlmreg_p(vd, gd, nclk, act, force_t, thold_b, d_mode, sg, delay_lclkr


assign unused[0] = d_mode | sg | delay_lclkr | mpw1_b | mpw2_b | vd | gd | (|nclk); assign unused[0] = d_mode | sg | delay_lclkr | mpw1_b | mpw2_b | vd | gd | (|nclk);
assign unused[1:WIDTH] = scin; assign unused[1:WIDTH] = scin;
end
endgenerate endgenerate
endmodule endmodule

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