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adder_tree.sv
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adder_tree.sv
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//------------------------------------------------------------------------------
// adder_tree.sv
// Konstantin Pavlov, pavlovconst@gmail.com
//------------------------------------------------------------------------------
// INFO -------------------------------------------------------------------------
// Pipelined tree adder with parametrized input width written in System Verilog
//
// - Number of inputs is NOT required to be power of two
// - This code can generate entirely combinational circuit with minimal editing
//
/* --- INSTANTIATION TEMPLATE BEGIN ---
adder_tree #(
.INPUTS_NUM( 125 ),
.IDATA_WIDTH( 16 )
) AT1 (
.clk( ),
.nrst( ),
.idata( ),
.odata( )
);
--- INSTANTIATION TEMPLATE END ---*/
module adder_tree #(
parameter INPUTS_NUM = 125,
parameter IDATA_WIDTH = 16,
parameter STAGES_NUM = $clog2(INPUTS_NUM),
parameter INPUTS_NUM_INT = 2 ** STAGES_NUM,
parameter ODATA_WIDTH = IDATA_WIDTH + STAGES_NUM
)(
input clk,
input nrst,
input logic [INPUTS_NUM-1:0][IDATA_WIDTH-1:0] idata,
output logic [ODATA_WIDTH-1:0] odata
);
logic [STAGES_NUM:0][INPUTS_NUM_INT-1:0][ODATA_WIDTH-1:0] data;
// generating tree
genvar stage, adder;
generate
for( stage = 0; stage <= STAGES_NUM; stage++ ) begin: stage_gen
localparam ST_OUT_NUM = INPUTS_NUM_INT >> stage;
localparam ST_WIDTH = IDATA_WIDTH + stage;
if( stage == '0 ) begin
// stege 0 is actually module inputs
for( adder = 0; adder < ST_OUT_NUM; adder++ ) begin: inputs_gen
always_comb begin
if( adder < INPUTS_NUM ) begin
data[stage][adder][ST_WIDTH-1:0] <= idata[adder][ST_WIDTH-1:0];
data[stage][adder][ODATA_WIDTH-1:ST_WIDTH] <= '0;
end else begin
data[stage][adder][ODATA_WIDTH-1:0] <= '0;
end
end // always_comb
end // for
end else begin
// all other stages hold adders outputs
for( adder = 0; adder < ST_OUT_NUM; adder++ ) begin: adder_gen
//always_comb begin // is also possible here
always_ff@(posedge clk) begin
if( ~nrst ) begin
data[stage][adder][ODATA_WIDTH-1:0] <= '0;
end else begin
data[stage][adder][ST_WIDTH-1:0] <=
data[stage-1][adder*2][(ST_WIDTH-1)-1:0] +
data[stage-1][adder*2+1][(ST_WIDTH-1)-1:0];
end
end // always
end // for
end // if stage
end // for
endgenerate
assign odata = data[STAGES_NUM][0];
endmodule