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fifo_single_clock_reg_v1.sv
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fifo_single_clock_reg_v1.sv
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//------------------------------------------------------------------------------
// fifo_single_clock_reg_v1.sv
// published as part of https://github.com/pConst/basic_verilog
// Konstantin Pavlov, [email protected]
//------------------------------------------------------------------------------
// INFO ------------------------------------------------------------------------
// Single-clock FIFO buffer implementation, also known as "queue"
//
// I`ve made two variants of fifo_single_clock_reg module - v1 and v2
// Both variants are valid, both operate identically from an outside observer`s
// view. Only internal r/w pointers operation is different.
//
// Features:
// - single clock operation
// - configurable depth and data width
// - one write- and one read- port in "FWFT" or "normal" mode
// - protected against overflow and underflow
// - simultaneous read and write operations supported BUT:
// only read will happen if simultaneous rw from full fifo
// only write will happen if simultaneous rw from empty fifo
// Always honor empty and full flags!
// - (new!) optional fifo contents initialization
//
// See also "lifo.sv" module for similar LIFO buffer implementation
/* --- INSTANTIATION TEMPLATE BEGIN ---
fifo_single_clock_reg_v1 #(
.FWFT_MODE( "TRUE" ),
.DEPTH( 8 ),
.DATA_W( 32 ),
// optional initialization
.INIT_FILE( "fifo_single_clock_reg_v1_init.svh" ),
.INIT_CNT( 10 )
) FF1 (
.clk( clk ),
.nrst( 1'b1 ),
.w_req( ),
.w_data( ),
.r_req( ),
.r_data( ),
.cnt( ),
.empty( ),
.full( )
);
--- INSTANTIATION TEMPLATE END ---*/
module fifo_single_clock_reg_v1 #( parameter
FWFT_MODE = "TRUE", // "TRUE" - first word fall-trrough" mode
// "FALSE" - normal fifo mode
DEPTH = 8, // max elements count == DEPTH, DEPTH MUST be power of 2
DEPTH_W = clogb2(DEPTH)+1, // elements counter width, extra bit to store
// "fifo full" state, see cnt[] variable comments
DATA_W = 32, // data field width
// optional initialization
USE_INIT_FILE = "FALSE", // "TRUE" - uses special filethat provides init data
// "FALSE" - initializes with '0
INIT_CNT = '0 // sets desired initial cnt[]
)(
input clk,
input nrst, // inverted reset
// input port
input w_req,
input [DATA_W-1:0] w_data,
// output port
input r_req,
output logic [DATA_W-1:0] r_data,
// helper ports
output logic [DEPTH_W-1:0] cnt,
output logic empty,
output logic full,
output logic fail
);
// fifo data
logic [DEPTH-1:0][DATA_W-1:0] data;
// fofo initialization
// Modelsim gives suppressable error here
// "(vlog-7061) Variable 'data' driven in an always_ff block, may not be driven by any other process"
generate
initial begin
if( USE_INIT_FILE ) begin
`include "fifo_single_clock_reg_v1_init.svh"
cnt[DEPTH_W-1:0] <= INIT_CNT[DEPTH_W-1:0];
end else begin
data <= '0;
cnt[DEPTH_W-1:0] <= '0;
end
end // initial
endgenerate
// data output buffer for normal fifo mode
logic [DATA_W-1:0] data_buf = '0;
// cnt[] vector always holds fifo elements count
// data[cnt[]] points to the first empty fifo slot
// when fifo is full data[cnt[]] points "outside" of data[]
always_ff @(posedge clk) begin
integer i;
if ( ~nrst ) begin
if( USE_INIT_FILE ) begin
`include "fifo_single_clock_reg_v1_init.svh"
cnt[DEPTH_W-1:0] <= INIT_CNT[DEPTH_W-1:0];
end else begin
data <= '0;
cnt[DEPTH_W-1:0] <= '0;
end
data_buf[DATA_W-1:0] <= '0;
end else begin
unique case ({w_req, r_req})
2'b00: ; // nothing
2'b01: begin // reading out
if( ~empty ) begin
for ( i = (DEPTH-1); i > 0; i=i-1 ) begin
data[i-1] <= data[i];
end
cnt[DEPTH_W-1:0] <= cnt[DEPTH_W-1:0] - 1'b1;
data_buf[DATA_W-1:0] <= data[0];
end
end
2'b10: begin // writing in
if( ~full ) begin
data[cnt[DEPTH_W-1:0]] <= w_data[DATA_W-1:0];
cnt[DEPTH_W-1:0] <= cnt[DEPTH_W-1:0] + 1'b1;
end
end
2'b11: begin // simultaneously reading and writing
if( empty ) begin
data[cnt[DEPTH_W-1:0]] <= w_data[DATA_W-1:0];
cnt[DEPTH_W-1:0] <= cnt[DEPTH_W-1:0] + 1'b1;
end else if( full ) begin
for ( i = (DEPTH-1); i > 0; i=i-1 ) begin
data[i-1] <= data[i];
end
cnt[DEPTH_W-1:0] <= cnt[DEPTH_W-1:0] - 1'b1;
data_buf[DATA_W-1:0] <= data[0];
end else begin
for ( i = (DEPTH-1); i > 0; i=i-1 ) begin
if( i == cnt[DEPTH_W-1:0] ) begin
data[i-1] <= w_data[DATA_W-1:0];
end else begin
data[i-1] <= data[i];
end
end
//cnt[DEPTH_W-1:0] <= // data counter does not change here
data_buf[DATA_W-1:0] <= data[0];
end
end
endcase
end
end
always_comb begin
empty = ( cnt[DEPTH_W-1:0] == '0 );
full = ( cnt[DEPTH_W-1:0] == DEPTH );
if( FWFT_MODE == "TRUE" ) begin // first-word fall-through mode
if( ~empty ) begin
r_data[DATA_W-1:0] = data[0];
end else begin
r_data[DATA_W-1:0] = '0;
end
end else begin // normal mode
r_data[DATA_W-1:0] = data_buf[DATA_W-1:0];
end
fail = ( empty && r_req ) ||
( full && w_req );
end
`include "clogb2.svh"
endmodule