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Verilog

3 years ago
// © IBM Corp. 2020
// Licensed under the Apache License, Version 2.0 (the "License"), as modified by
// the terms below; you may not use the files in this repository except in
// compliance with the License as modified.
// You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0
//
// Modified Terms:
//
// 1) For the purpose of the patent license granted to you in Section 3 of the
// License, the "Work" hereby includes implementations of the work of authorship
// in physical form.
//
// 2) Notwithstanding any terms to the contrary in the License, any licenses
// necessary for implementation of the Work that are available from OpenPOWER
// via the Power ISA End User License Agreement (EULA) are explicitly excluded
// hereunder, and may be obtained from OpenPOWER under the terms and conditions
// of the EULA.
//
// Unless required by applicable law or agreed to in writing, the reference design
// distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
// WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License
// for the specific language governing permissions and limitations under the License.
//
// Additional rights, including the ability to physically implement a softcore that
// is compliant with the required sections of the Power ISA Specification, are
// available at no cost under the terms of the OpenPOWER Power ISA EULA, which can be
// obtained (along with the Power ISA) here: https://openpowerfoundation.org.
`timescale 1 ns / 1 ns
//********************************************************************
//*
//* TITLE:
//*
//* NAME: iuq_rn_map.v
//*
//*********************************************************************
`include "tri_a2o.vh"
module iuq_rn_map #(
parameter ARCHITECTED_REGISTER_DEPTH = 36,
parameter REGISTER_RENAME_DEPTH = 64,
parameter STORAGE_WIDTH = 6)
(
inout vdd,
inout gnd,
input [0:`NCLK_WIDTH-1] nclk,
input pc_iu_func_sl_thold_0_b, // acts as reset for non-ibm types
input pc_iu_sg_0,
input force_t,
input d_mode,
input delay_lclkr,
input mpw1_b,
input mpw2_b,
input func_scan_in,
output func_scan_out,
input take_a,
input take_b,
output next_reg_a_val,
output reg [0:STORAGE_WIDTH-1] next_reg_a,
output next_reg_b_val,
output reg [0:STORAGE_WIDTH-1] next_reg_b,
input [0:STORAGE_WIDTH-1] src1_a,
output reg [0:STORAGE_WIDTH-1] src1_p,
output reg [0:`ITAG_SIZE_ENC-1] src1_itag,
input [0:STORAGE_WIDTH-1] src2_a,
output reg [0:STORAGE_WIDTH-1] src2_p,
output reg [0:`ITAG_SIZE_ENC-1] src2_itag,
input [0:STORAGE_WIDTH-1] src3_a,
output reg [0:STORAGE_WIDTH-1] src3_p,
output reg [0:`ITAG_SIZE_ENC-1] src3_itag,
input [0:STORAGE_WIDTH-1] src4_a,
output [0:STORAGE_WIDTH-1] src4_p,
output [0:`ITAG_SIZE_ENC-1] src4_itag,
input [0:STORAGE_WIDTH-1] src5_a,
output [0:STORAGE_WIDTH-1] src5_p,
output [0:`ITAG_SIZE_ENC-1] src5_itag,
input [0:STORAGE_WIDTH-1] src6_a,
output [0:STORAGE_WIDTH-1] src6_p,
output [0:`ITAG_SIZE_ENC-1] src6_itag,
input comp_0_wr_val,
input [0:STORAGE_WIDTH-1] comp_0_wr_arc,
input [0:STORAGE_WIDTH-1] comp_0_wr_rename,
input [0:`ITAG_SIZE_ENC-1] comp_0_wr_itag,
input comp_1_wr_val,
input [0:STORAGE_WIDTH-1] comp_1_wr_arc,
input [0:STORAGE_WIDTH-1] comp_1_wr_rename,
input [0:`ITAG_SIZE_ENC-1] comp_1_wr_itag,
input spec_0_wr_val,
input spec_0_wr_val_fast,
input [0:STORAGE_WIDTH-1] spec_0_wr_arc,
input [0:STORAGE_WIDTH-1] spec_0_wr_rename,
input [0:`ITAG_SIZE_ENC-1] spec_0_wr_itag,
input spec_1_dep_hit_s1,
input spec_1_dep_hit_s2,
input spec_1_dep_hit_s3,
input spec_1_wr_val,
input spec_1_wr_val_fast,
input [0:STORAGE_WIDTH-1] spec_1_wr_arc,
input [0:STORAGE_WIDTH-1] spec_1_wr_rename,
input [0:`ITAG_SIZE_ENC-1] spec_1_wr_itag,
input flush_map
);
localparam [0:31] value_1 = 32'h00000001;
localparam [0:31] value_2 = 32'h00000002;
parameter comp_map_offset = 0;
parameter spec_map_arc_offset = comp_map_offset + STORAGE_WIDTH * ARCHITECTED_REGISTER_DEPTH;
parameter spec_map_itag_offset = spec_map_arc_offset + STORAGE_WIDTH * ARCHITECTED_REGISTER_DEPTH;
parameter buffer_pool_offset = spec_map_itag_offset + `ITAG_SIZE_ENC * ARCHITECTED_REGISTER_DEPTH;
parameter read_ptr_offset = buffer_pool_offset + (REGISTER_RENAME_DEPTH - ARCHITECTED_REGISTER_DEPTH) * STORAGE_WIDTH;
parameter write_ptr_offset = read_ptr_offset + STORAGE_WIDTH;
parameter free_cnt_offset = write_ptr_offset + STORAGE_WIDTH;
parameter pool_free_0_v_offset = free_cnt_offset + STORAGE_WIDTH;
parameter pool_free_0_offset = pool_free_0_v_offset + 1;
parameter pool_free_1_v_offset = pool_free_0_offset + STORAGE_WIDTH;
parameter pool_free_1_offset = pool_free_1_v_offset + 1;
parameter scan_right = pool_free_1_offset + STORAGE_WIDTH - 1;
// scan
wire [0:scan_right] siv;
wire [0:scan_right] sov;
wire tidn;
wire tiup;
wire comp_map_act;
reg [0:STORAGE_WIDTH-1] comp_map_d[0:ARCHITECTED_REGISTER_DEPTH-1];
wire [0:STORAGE_WIDTH-1] comp_map_l2[0:ARCHITECTED_REGISTER_DEPTH-1];
wire spec_map_arc_act;
reg [0:STORAGE_WIDTH-1] spec_map_arc_d[0:ARCHITECTED_REGISTER_DEPTH-1];
wire [0:STORAGE_WIDTH-1] spec_map_arc_l2[0:ARCHITECTED_REGISTER_DEPTH-1];
wire spec_map_itag_act;
reg [0:`ITAG_SIZE_ENC-1] spec_map_itag_d[0:ARCHITECTED_REGISTER_DEPTH-1];
wire [0:`ITAG_SIZE_ENC-1] spec_map_itag_l2[0:ARCHITECTED_REGISTER_DEPTH-1];
reg [0:REGISTER_RENAME_DEPTH-ARCHITECTED_REGISTER_DEPTH-1] buffer_pool_act;
reg [0:STORAGE_WIDTH-1] buffer_pool_d[0:REGISTER_RENAME_DEPTH-ARCHITECTED_REGISTER_DEPTH-1];
wire [0:STORAGE_WIDTH-1] buffer_pool_l2[0:REGISTER_RENAME_DEPTH-ARCHITECTED_REGISTER_DEPTH-1];
wire read_ptr_act;
wire [0:STORAGE_WIDTH-1] read_ptr_d;
wire [0:STORAGE_WIDTH-1] read_ptr_l2;
wire [0:STORAGE_WIDTH-1] read_ptr_inc;
reg [0:REGISTER_RENAME_DEPTH-ARCHITECTED_REGISTER_DEPTH-1] read_ptr;
wire [0:REGISTER_RENAME_DEPTH-ARCHITECTED_REGISTER_DEPTH-1] read_ptr_p1;
wire write_ptr_act;
wire [0:STORAGE_WIDTH-1] write_ptr_d;
wire [0:STORAGE_WIDTH-1] write_ptr_l2;
reg [0:REGISTER_RENAME_DEPTH-ARCHITECTED_REGISTER_DEPTH-1] write_ptr;
wire [0:REGISTER_RENAME_DEPTH-ARCHITECTED_REGISTER_DEPTH-1] write_ptr_p1;
wire [0:STORAGE_WIDTH-1] write_ptr_value;
wire free_cnt_act;
reg [0:STORAGE_WIDTH-1] free_cnt_d;
wire [0:STORAGE_WIDTH-1] free_cnt_l2;
reg pool_free_0_v_d;
wire pool_free_0_v_l2;
reg [0:STORAGE_WIDTH-1] pool_free_0_d;
wire [0:STORAGE_WIDTH-1] pool_free_0_l2;
reg pool_free_1_v_d;
wire pool_free_1_v_l2;
reg [0:STORAGE_WIDTH-1] pool_free_1_d;
wire [0:STORAGE_WIDTH-1] pool_free_1_l2;
// temporary signal prior to mux select for i0->i1 bypass
reg [0:STORAGE_WIDTH-1] src4_temp_p;
reg [0:STORAGE_WIDTH-1] src5_temp_p;
reg [0:STORAGE_WIDTH-1] src6_temp_p;
reg [0:`ITAG_SIZE_ENC-1] src4_temp_itag;
reg [0:`ITAG_SIZE_ENC-1] src5_temp_itag;
reg [0:`ITAG_SIZE_ENC-1] src6_temp_itag;
assign tidn = 1'b0;
assign tiup = 1'b1;
always @( * )
begin: read_spec_map_arc_proc
integer i;
src1_p <= 0;
src2_p <= 0;
src3_p <= 0;
src4_temp_p <= 0;
src5_temp_p <= 0;
src6_temp_p <= 0;
for (i = 0; i <= ARCHITECTED_REGISTER_DEPTH - 1; i = i + 1)
begin
if (src1_a == i)
src1_p <= spec_map_arc_l2[i];
if (src2_a == i)
src2_p <= spec_map_arc_l2[i];
if (src3_a == i)
src3_p <= spec_map_arc_l2[i];
if (src4_a == i)
src4_temp_p <= spec_map_arc_l2[i];
if (src5_a == i)
src5_temp_p <= spec_map_arc_l2[i];
if (src6_a == i)
src6_temp_p <= spec_map_arc_l2[i];
end
end
assign src4_p = spec_1_dep_hit_s1 ? spec_0_wr_rename :
src4_temp_p;
assign src5_p = spec_1_dep_hit_s2 ? spec_0_wr_rename :
src5_temp_p;
assign src6_p = spec_1_dep_hit_s3 ? spec_0_wr_rename :
src6_temp_p;
always @( * )
begin: read_spec_map_itag_proc
integer i;
src1_itag <= 0;
src2_itag <= 0;
src3_itag <= 0;
src4_temp_itag <= 0;
src5_temp_itag <= 0;
src6_temp_itag <= 0;
for (i = 0; i <= ARCHITECTED_REGISTER_DEPTH - 1; i = i + 1)
begin
if (src1_a == i)
src1_itag <= spec_map_itag_l2[i];
if (src2_a == i)
src2_itag <= spec_map_itag_l2[i];
if (src3_a == i)
src3_itag <= spec_map_itag_l2[i];
if (src4_a == i)
src4_temp_itag <= spec_map_itag_l2[i];
if (src5_a == i)
src5_temp_itag <= spec_map_itag_l2[i];
if (src6_a == i)
src6_temp_itag <= spec_map_itag_l2[i];
end
end
assign src4_itag = spec_1_dep_hit_s1 ? spec_0_wr_itag :
src4_temp_itag;
assign src5_itag = spec_1_dep_hit_s2 ? spec_0_wr_itag :
src5_temp_itag;
assign src6_itag = spec_1_dep_hit_s3 ? spec_0_wr_itag :
src6_temp_itag;
assign comp_map_act = comp_0_wr_val | comp_1_wr_val;
always @( * )
begin: set_comp_map_proc
integer i;
pool_free_0_v_d <= 0;
pool_free_0_d <= 0;
pool_free_1_v_d <= 0;
pool_free_1_d <= 0;
for (i = 0; i <= ARCHITECTED_REGISTER_DEPTH - 1; i = i + 1)
begin
comp_map_d[i] <= comp_map_l2[i];
if ((comp_0_wr_val == 1'b1) & (comp_1_wr_val == 1'b1) & (comp_0_wr_arc == comp_1_wr_arc) & comp_0_wr_arc == i)
begin
comp_map_d[i] <= comp_1_wr_rename;
pool_free_0_v_d <= 1'b1;
pool_free_0_d <= comp_map_l2[i];
pool_free_1_v_d <= 1'b1;
pool_free_1_d <= comp_0_wr_rename;
end
else
begin
if ((comp_0_wr_val == 1'b1) & comp_0_wr_arc == i)
begin
comp_map_d[i] <= comp_0_wr_rename;
pool_free_0_v_d <= 1'b1;
pool_free_0_d <= comp_map_l2[i];
end
if ((comp_1_wr_val == 1'b1) & comp_1_wr_arc == i)
begin
comp_map_d[i] <= comp_1_wr_rename;
pool_free_1_v_d <= 1'b1;
pool_free_1_d <= comp_map_l2[i];
end
end
end
end
assign spec_map_arc_act = flush_map | spec_0_wr_val_fast | spec_1_wr_val_fast;
assign spec_map_itag_act = 1'b1;
generate
begin : xhdl1
genvar i;
for (i = 0; i <= ARCHITECTED_REGISTER_DEPTH - 1; i = i + 1)
begin : map_set0
always @(flush_map or spec_0_wr_val or spec_0_wr_arc or spec_0_wr_rename or spec_1_wr_val or spec_1_wr_arc or spec_1_wr_rename or spec_map_arc_l2[i] or comp_map_l2[i])
begin: set_spec_map_arc_proc
spec_map_arc_d[i] <= spec_map_arc_l2[i];
if (flush_map == 1'b1)
spec_map_arc_d[i] <= comp_map_l2[i];
else if ((spec_1_wr_val == 1'b1) & spec_1_wr_arc == i)
spec_map_arc_d[i] <= spec_1_wr_rename;
else if ((spec_0_wr_val == 1'b1) & spec_0_wr_arc == i)
spec_map_arc_d[i] <= spec_0_wr_rename;
end
always @(flush_map or spec_0_wr_val or spec_0_wr_arc or spec_0_wr_itag or spec_1_wr_val or spec_1_wr_arc or spec_1_wr_itag or spec_map_itag_l2[i] or comp_0_wr_val or comp_0_wr_itag or comp_1_wr_val or comp_1_wr_itag)
begin: set_spec_map_itag_proc
spec_map_itag_d[i] <= spec_map_itag_l2[i];
if (flush_map == 1'b1)
spec_map_itag_d[i] <= {`ITAG_SIZE_ENC{1'b1}};
else if ((spec_1_wr_val == 1'b1) & spec_1_wr_arc == i)
spec_map_itag_d[i] <= spec_1_wr_itag;
else if ((spec_0_wr_val == 1'b1) & spec_0_wr_arc == i)
spec_map_itag_d[i] <= spec_0_wr_itag;
else
begin
if ((comp_0_wr_val == 1'b1) & comp_0_wr_itag == spec_map_itag_l2[i])
spec_map_itag_d[i] <= {`ITAG_SIZE_ENC{1'b1}};
if ((comp_1_wr_val == 1'b1) & comp_1_wr_itag == spec_map_itag_l2[i])
spec_map_itag_d[i] <= {`ITAG_SIZE_ENC{1'b1}};
end
end
end
end
endgenerate
generate
begin : write_ptr_calc
genvar i;
for(i = 0; i <= (REGISTER_RENAME_DEPTH - ARCHITECTED_REGISTER_DEPTH - 1); i = i + 1)
begin : write_ptr_set
always @( * )
if (write_ptr_l2 == i)
write_ptr[i] <= (pool_free_0_v_l2 | pool_free_1_v_l2);
else
write_ptr[i] <= 1'b0;
end
end
endgenerate
assign write_ptr_p1 = {REGISTER_RENAME_DEPTH - ARCHITECTED_REGISTER_DEPTH{pool_free_0_v_l2 & pool_free_1_v_l2}} &
({write_ptr[REGISTER_RENAME_DEPTH-ARCHITECTED_REGISTER_DEPTH-1], write_ptr[0:REGISTER_RENAME_DEPTH-ARCHITECTED_REGISTER_DEPTH-2]});
assign write_ptr_value = ({pool_free_0_v_l2, pool_free_1_v_l2} == 2'b01) ? pool_free_1_l2 :
pool_free_0_l2;
generate
begin : xhdl2
genvar i;
for (i = 0; i <= REGISTER_RENAME_DEPTH - ARCHITECTED_REGISTER_DEPTH - 1; i = i + 1)
begin : buffer_pool_gen
always @( * )
begin
buffer_pool_act[i] <= write_ptr[i] | write_ptr_p1[i];
buffer_pool_d[i] <= ({STORAGE_WIDTH{write_ptr[i]}} & write_ptr_value) |
({STORAGE_WIDTH{write_ptr_p1[i]}} & pool_free_1_l2);
end
end
end
endgenerate
iuq_rn_map_inc #(.SIZE(STORAGE_WIDTH), .WRAP(REGISTER_RENAME_DEPTH - ARCHITECTED_REGISTER_DEPTH - 1)) read_ptr_inc0(
.inc({take_a, take_b}),
.i(read_ptr_l2),
.o(read_ptr_inc)
);
assign read_ptr_act = take_a | take_b | flush_map;
assign read_ptr_d = (flush_map == 1'b0) ? read_ptr_inc :
write_ptr_l2;
assign write_ptr_act = pool_free_0_v_l2 | pool_free_1_v_l2;
iuq_rn_map_inc #(.SIZE(STORAGE_WIDTH), .WRAP(REGISTER_RENAME_DEPTH - ARCHITECTED_REGISTER_DEPTH - 1)) write_ptr_inc0(
.inc({pool_free_0_v_l2, pool_free_1_v_l2}),
.i(write_ptr_l2),
.o(write_ptr_d)
);
assign free_cnt_act = flush_map | take_a | take_b | pool_free_0_v_l2 | pool_free_1_v_l2;
always @(flush_map or take_a or take_b or pool_free_0_v_l2 or pool_free_1_v_l2 or free_cnt_l2)
begin: free_cnt_proc
free_cnt_d <= free_cnt_l2;
if (flush_map == 1'b1)
free_cnt_d <= REGISTER_RENAME_DEPTH - ARCHITECTED_REGISTER_DEPTH;
else
begin
if ((take_a == 1'b0 & (pool_free_0_v_l2 == 1'b1 ^ pool_free_1_v_l2 == 1'b1)) |
(take_a == 1'b1 & take_b == 1'b0 & pool_free_0_v_l2 == 1'b1 & pool_free_1_v_l2 == 1'b1))
free_cnt_d <= free_cnt_l2 + value_1[32-STORAGE_WIDTH:31];
if (take_a == 1'b0 & pool_free_0_v_l2 == 1'b1 & pool_free_1_v_l2 == 1'b1)
free_cnt_d <= free_cnt_l2 + value_2[32-STORAGE_WIDTH:31];
if ((take_a == 1'b1 & take_b == 1'b0 & pool_free_0_v_l2 == 1'b0 & pool_free_1_v_l2 == 1'b0) |
(take_a == 1'b1 & take_b == 1'b1 & (pool_free_0_v_l2 == 1'b1 ^ pool_free_1_v_l2 == 1'b1)))
free_cnt_d <= free_cnt_l2 - value_1[32-STORAGE_WIDTH:31];
if (take_a == 1'b1 & take_b == 1'b1 & pool_free_0_v_l2 == 1'b0 & pool_free_1_v_l2 == 1'b0)
free_cnt_d <= free_cnt_l2 - value_2[32-STORAGE_WIDTH:31];
end
end
// Creating 1 hot muxing from pointers
generate
begin : read_ptr_calc
genvar i;
for(i = 0; i <= (REGISTER_RENAME_DEPTH - ARCHITECTED_REGISTER_DEPTH - 1); i = i + 1)
begin : read_ptr_set
always @( * )
if (read_ptr_l2 == i)
read_ptr[i] <= 1'b1;
else
read_ptr[i] <= 1'b0;
end
end
endgenerate
assign read_ptr_p1 = {read_ptr[REGISTER_RENAME_DEPTH - ARCHITECTED_REGISTER_DEPTH - 1], read_ptr[0:REGISTER_RENAME_DEPTH - ARCHITECTED_REGISTER_DEPTH - 2]};
// OUTPUTS
assign next_reg_a_val = (~(free_cnt_l2 == 0));
assign next_reg_b_val = (~(free_cnt_l2 == 1));
always @( * )
begin: next_reg_proc
integer e;
next_reg_a <= 0;
next_reg_b <= 0;
for (e = 0; e <= (REGISTER_RENAME_DEPTH-ARCHITECTED_REGISTER_DEPTH-1+1) - 1; e = e + 1)
begin
if (read_ptr[e] == 1'b1)
next_reg_a <= buffer_pool_l2[e];
if (read_ptr_p1[e] == 1'b1)
next_reg_b <= buffer_pool_l2[e];
end
end
generate
begin : xhdl3
genvar i;
for (i = 0; i <= ARCHITECTED_REGISTER_DEPTH - 1; i = i + 1)
begin : comp_map0
tri_rlmreg_p #(.WIDTH(STORAGE_WIDTH), .INIT(i)) comp_map_latch(
.vd(vdd),
.gd(gnd),
.nclk(nclk),
.act(comp_map_act),
.force_t(force_t),
.thold_b(pc_iu_func_sl_thold_0_b),
.d_mode(d_mode),
.sg(pc_iu_sg_0),
.delay_lclkr(delay_lclkr),
.mpw1_b(mpw1_b),
.mpw2_b(mpw2_b),
.scin(siv[comp_map_offset + (STORAGE_WIDTH) * i:comp_map_offset + (STORAGE_WIDTH) * (i + 1) - 1]),
.scout(sov[comp_map_offset + (STORAGE_WIDTH) * i:comp_map_offset + (STORAGE_WIDTH) * (i + 1) - 1]),
.din(comp_map_d[i]),
.dout(comp_map_l2[i])
);
end
end
endgenerate
generate
begin : xhdl4
genvar i;
for (i = 0; i <= ARCHITECTED_REGISTER_DEPTH - 1; i = i + 1)
begin : spec_map0
tri_rlmreg_p #(.WIDTH(STORAGE_WIDTH), .INIT(i)) spec_map_arc_latch(
.vd(vdd),
.gd(gnd),
.nclk(nclk),
.act(spec_map_arc_act),
.force_t(force_t),
.thold_b(pc_iu_func_sl_thold_0_b),
.d_mode(d_mode),
.sg(pc_iu_sg_0),
.delay_lclkr(delay_lclkr),
.mpw1_b(mpw1_b),
.mpw2_b(mpw2_b),
.scin(siv[spec_map_arc_offset + (STORAGE_WIDTH) * i:(spec_map_arc_offset + (STORAGE_WIDTH) * (i + 1)) - 1]),
.scout(sov[spec_map_arc_offset + (STORAGE_WIDTH) * i:(spec_map_arc_offset + (STORAGE_WIDTH) * (i + 1)) - 1]),
.din(spec_map_arc_d[i]),
.dout(spec_map_arc_l2[i])
);
tri_rlmreg_p #(.WIDTH(`ITAG_SIZE_ENC), .INIT(i)) spec_map_itag_latch(
.vd(vdd),
.gd(gnd),
.nclk(nclk),
.act(spec_map_itag_act),
.force_t(force_t),
.thold_b(pc_iu_func_sl_thold_0_b),
.d_mode(d_mode),
.sg(pc_iu_sg_0),
.delay_lclkr(delay_lclkr),
.mpw1_b(mpw1_b),
.mpw2_b(mpw2_b),
.scin(siv[spec_map_itag_offset + (`ITAG_SIZE_ENC) * i:(spec_map_itag_offset + (`ITAG_SIZE_ENC) * (i + 1)) - 1]),
.scout(sov[spec_map_itag_offset + (`ITAG_SIZE_ENC) * i:(spec_map_itag_offset + (`ITAG_SIZE_ENC) * (i + 1)) - 1]),
.din(spec_map_itag_d[i]),
.dout(spec_map_itag_l2[i])
);
end
end
endgenerate
generate
begin : xhdl5
genvar i;
for (i = 0; i <= REGISTER_RENAME_DEPTH - ARCHITECTED_REGISTER_DEPTH - 1; i = i + 1)
begin : buffer_pool_lat
tri_rlmreg_p #(.WIDTH(STORAGE_WIDTH), .INIT((i + ARCHITECTED_REGISTER_DEPTH))) buffer_pool_latch0(
.vd(vdd),
.gd(gnd),
.nclk(nclk),
.act(buffer_pool_act[i]),
.force_t(force_t),
.thold_b(pc_iu_func_sl_thold_0_b),
.d_mode(d_mode),
.sg(pc_iu_sg_0),
.delay_lclkr(delay_lclkr),
.mpw1_b(mpw1_b),
.mpw2_b(mpw2_b),
.scin(siv[buffer_pool_offset + (STORAGE_WIDTH) * i:(buffer_pool_offset + (STORAGE_WIDTH) * (i + 1)) - 1]),
.scout(sov[buffer_pool_offset + (STORAGE_WIDTH) * i:(buffer_pool_offset + (STORAGE_WIDTH) * (i + 1)) - 1]),
.din(buffer_pool_d[i]),
.dout(buffer_pool_l2[i])
);
end
end
endgenerate
tri_rlmreg_p #(.WIDTH(STORAGE_WIDTH), .INIT(0)) read_ptr_latch(
.vd(vdd),
.gd(gnd),
.nclk(nclk),
.act(read_ptr_act),
.force_t(force_t),
.thold_b(pc_iu_func_sl_thold_0_b),
.d_mode(d_mode),
.sg(pc_iu_sg_0),
.delay_lclkr(delay_lclkr),
.mpw1_b(mpw1_b),
.mpw2_b(mpw2_b),
.scin(siv[read_ptr_offset:read_ptr_offset + STORAGE_WIDTH - 1]),
.scout(sov[read_ptr_offset:read_ptr_offset + STORAGE_WIDTH - 1]),
.din(read_ptr_d),
.dout(read_ptr_l2)
);
tri_rlmreg_p #(.WIDTH(STORAGE_WIDTH), .INIT(0)) write_ptr_latch(
.vd(vdd),
.gd(gnd),
.nclk(nclk),
.act(write_ptr_act),
.force_t(force_t),
.thold_b(pc_iu_func_sl_thold_0_b),
.d_mode(d_mode),
.sg(pc_iu_sg_0),
.delay_lclkr(delay_lclkr),
.mpw1_b(mpw1_b),
.mpw2_b(mpw2_b),
.scin(siv[write_ptr_offset:write_ptr_offset + STORAGE_WIDTH - 1]),
.scout(sov[write_ptr_offset:write_ptr_offset + STORAGE_WIDTH - 1]),
.din(write_ptr_d),
.dout(write_ptr_l2)
);
tri_rlmreg_p #(.WIDTH(STORAGE_WIDTH), .INIT(REGISTER_RENAME_DEPTH - ARCHITECTED_REGISTER_DEPTH)) free_cnt_latch(
.vd(vdd),
.gd(gnd),
.nclk(nclk),
.act(free_cnt_act),
.force_t(force_t),
.thold_b(pc_iu_func_sl_thold_0_b),
.d_mode(d_mode),
.sg(pc_iu_sg_0),
.delay_lclkr(delay_lclkr),
.mpw1_b(mpw1_b),
.mpw2_b(mpw2_b),
.scin(siv[free_cnt_offset:free_cnt_offset + STORAGE_WIDTH - 1]),
.scout(sov[free_cnt_offset:free_cnt_offset + STORAGE_WIDTH - 1]),
.din(free_cnt_d),
.dout(free_cnt_l2)
);
tri_rlmlatch_p #(.INIT(0)) pool_free_0_v_latch(
.vd(vdd),
.gd(gnd),
.nclk(nclk),
.act(tiup),
.thold_b(pc_iu_func_sl_thold_0_b),
.sg(pc_iu_sg_0),
.force_t(force_t),
.delay_lclkr(delay_lclkr),
.mpw1_b(mpw1_b),
.mpw2_b(mpw2_b),
.d_mode(d_mode),
.scin(siv[pool_free_0_v_offset]),
.scout(sov[pool_free_0_v_offset]),
.din(pool_free_0_v_d),
.dout(pool_free_0_v_l2)
);
tri_rlmreg_p #(.WIDTH(STORAGE_WIDTH), .INIT(0)) pool_free_0_latch(
.vd(vdd),
.gd(gnd),
.nclk(nclk),
.act(tiup),
.force_t(force_t),
.thold_b(pc_iu_func_sl_thold_0_b),
.d_mode(d_mode),
.sg(pc_iu_sg_0),
.delay_lclkr(delay_lclkr),
.mpw1_b(mpw1_b),
.mpw2_b(mpw2_b),
.scin(siv[pool_free_0_offset:pool_free_0_offset + STORAGE_WIDTH - 1]),
.scout(sov[pool_free_0_offset:pool_free_0_offset + STORAGE_WIDTH - 1]),
.din(pool_free_0_d),
.dout(pool_free_0_l2)
);
tri_rlmlatch_p #(.INIT(0)) pool_free_1_v_latch(
.vd(vdd),
.gd(gnd),
.nclk(nclk),
.act(tiup),
.thold_b(pc_iu_func_sl_thold_0_b),
.sg(pc_iu_sg_0),
.force_t(force_t),
.delay_lclkr(delay_lclkr),
.mpw1_b(mpw1_b),
.mpw2_b(mpw2_b),
.d_mode(d_mode),
.scin(siv[pool_free_1_v_offset]),
.scout(sov[pool_free_1_v_offset]),
.din(pool_free_1_v_d),
.dout(pool_free_1_v_l2)
);
tri_rlmreg_p #(.WIDTH(STORAGE_WIDTH), .INIT(0)) pool_free_1_latch(
.vd(vdd),
.gd(gnd),
.nclk(nclk),
.act(tiup),
.force_t(force_t),
.thold_b(pc_iu_func_sl_thold_0_b),
.d_mode(d_mode),
.sg(pc_iu_sg_0),
.delay_lclkr(delay_lclkr),
.mpw1_b(mpw1_b),
.mpw2_b(mpw2_b),
.scin(siv[pool_free_1_offset:pool_free_1_offset + STORAGE_WIDTH - 1]),
.scout(sov[pool_free_1_offset:pool_free_1_offset + STORAGE_WIDTH - 1]),
.din(pool_free_1_d),
.dout(pool_free_1_l2)
);
//---------------------------------------------------------------------
// Scan
//---------------------------------------------------------------------
assign siv[0:scan_right] = {sov[1:scan_right], func_scan_in};
assign func_scan_out = sov[0];
endmodule