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axi_throttle.sv
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axi_throttle.sv
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// Copyright 2022 ETH Zurich and University of Bologna.
// Solderpad Hardware License, Version 0.51, see LICENSE for details.
// SPDX-License-Identifier: SHL-0.51
//
// Authors:
// - Thomas Benz <[email protected]>
/// Throttles an AXI4+ATOP bus. The maximum number of outstanding transfers have to
/// be set as a compile-time parameter, whereas the number of outstanding transfers can be set
/// during runtime. This module assumes either in-order processing of the requests or
/// indistinguishability of the request/responses (all ARs and AWs have the same ID respectively).
module axi_throttle #(
/// The maximum amount of allowable outstanding write requests
parameter int unsigned MaxNumAwPending = 1,
/// The maximum amount of allowable outstanding read requests
parameter int unsigned MaxNumArPending = 1,
/// AXI4+ATOP request type
parameter type axi_req_t = logic,
/// AXI4+ATOP response type
parameter type axi_rsp_t = logic,
/// The width of the write credit counter (*DO NOT OVERWRITE*)
parameter int unsigned WCntWidth = cf_math_pkg::idx_width(MaxNumAwPending),
/// The width of the read credit counter (*DO NOT OVERWRITE*)
parameter int unsigned RCntWidth = cf_math_pkg::idx_width(MaxNumArPending),
/// The type of the write credit counter (*DO NOT OVERWRITE*)
parameter type w_credit_t = logic [WCntWidth-1:0],
/// The type of the read credit counter (*DO NOT OVERWRITE*)
parameter type r_credit_t = logic [RCntWidth-1:0]
) (
/// Clock
input logic clk_i,
/// Asynchronous reset, active low
input logic rst_ni,
/// AXI4+ATOP request in
input axi_req_t req_i,
/// AXI4+ATOP response out
output axi_rsp_t rsp_o,
/// AXI4+ATOP request out
output axi_req_t req_o,
/// AXI4+ATOP response in
input axi_rsp_t rsp_i,
/// Amount of write credit (number of outstanding write transfers)
input w_credit_t w_credit_i,
/// Amount of read credit (number of outstanding read transfers)
input r_credit_t r_credit_i
);
// ax throttled valids
logic throttled_aw_valid;
logic throttled_ar_valid;
// ax throttled readies
logic throttled_aw_ready;
logic throttled_ar_ready;
// limit Aw requests -> wait for b
stream_throttle #(
.MaxNumPending ( MaxNumAwPending )
) i_stream_throttle_aw (
.clk_i,
.rst_ni,
.req_valid_i ( req_i.aw_valid ),
.req_valid_o ( throttled_aw_valid ),
.req_ready_i ( rsp_i.aw_ready ),
.req_ready_o ( throttled_aw_ready ),
.rsp_valid_i ( rsp_i.b_valid ),
.rsp_ready_i ( req_i.b_ready ),
.credit_i ( w_credit_i )
);
// limit Ar requests -> wait for r.last
stream_throttle #(
.MaxNumPending ( MaxNumArPending )
) i_stream_throttle_ar (
.clk_i,
.rst_ni,
.req_valid_i ( req_i.ar_valid ),
.req_valid_o ( throttled_ar_valid ),
.req_ready_i ( rsp_i.ar_ready ),
.req_ready_o ( throttled_ar_ready ),
.rsp_valid_i ( rsp_i.r_valid & rsp_i.r.last ),
.rsp_ready_i ( req_i.r_ready ),
.credit_i ( r_credit_i )
);
// connect the throttled request bus (its a through connection - except for the ax valids)
always_comb begin : gen_throttled_req_conn
req_o = req_i;
req_o.aw_valid = throttled_aw_valid;
req_o.ar_valid = throttled_ar_valid;
end
// connect the throttled response bus (its a through connection - except for the ax readies)
always_comb begin : gen_throttled_rsp_conn
rsp_o = rsp_i;
rsp_o.aw_ready = throttled_aw_ready;
rsp_o.ar_ready = throttled_ar_ready;
end
endmodule : axi_throttle