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axi_to_mem.sv
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axi_to_mem.sv
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// Copyright 2020 ETH Zurich and University of Bologna.
// Copyright and related rights are licensed under the Solderpad Hardware
// License, Version 0.51 (the "License"); you may not use this file except in
// compliance with the License. You may obtain a copy of the License at
// http://solderpad.org/licenses/SHL-0.51. Unless required by applicable law
// or agreed to in writing, software, hardware and materials distributed under
// this 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.
// Authors:
// - Michael Rogenmoser <[email protected]>
// - Thomas Benz <[email protected]>
`include "common_cells/registers.svh"
/// AXI4+ATOP slave module which translates AXI bursts into a memory stream.
/// If both read and write channels of the AXI4+ATOP are active, both will have an
/// utilization of 50%.
module axi_to_mem #(
/// AXI4+ATOP request type. See `include/axi/typedef.svh`.
parameter type axi_req_t = logic,
/// AXI4+ATOP response type. See `include/axi/typedef.svh`.
parameter type axi_resp_t = logic,
/// Address width, has to be less or equal than the width off the AXI address field.
/// Determines the width of `mem_addr_o`. Has to be wide enough to emit the memory region
/// which should be accessible.
parameter int unsigned AddrWidth = 0,
/// AXI4+ATOP data width.
parameter int unsigned DataWidth = 0,
/// AXI4+ATOP ID width.
parameter int unsigned IdWidth = 0,
/// Number of banks at output, must evenly divide `DataWidth`.
parameter int unsigned NumBanks = 0,
/// Depth of memory response buffer. This should be equal to the memory response latency.
parameter int unsigned BufDepth = 1,
/// Hide write requests if the strb == '0
parameter bit HideStrb = 1'b0,
/// Depth of output fifo/fall_through_register. Increase for asymmetric backpressure (contention) on banks.
parameter int unsigned OutFifoDepth = 1,
/// Dependent parameter, do not override. Memory address type.
localparam type addr_t = logic [AddrWidth-1:0],
/// Dependent parameter, do not override. Memory data type.
localparam type mem_data_t = logic [DataWidth/NumBanks-1:0],
/// Dependent parameter, do not override. Memory write strobe type.
localparam type mem_strb_t = logic [DataWidth/NumBanks/8-1:0]
) (
/// Clock input.
input logic clk_i,
/// Asynchronous reset, active low.
input logic rst_ni,
/// The unit is busy handling an AXI4+ATOP request.
output logic busy_o,
/// AXI4+ATOP slave port, request input.
input axi_req_t axi_req_i,
/// AXI4+ATOP slave port, response output.
output axi_resp_t axi_resp_o,
/// Memory stream master, request is valid for this bank.
output logic [NumBanks-1:0] mem_req_o,
/// Memory stream master, request can be granted by this bank.
input logic [NumBanks-1:0] mem_gnt_i,
/// Memory stream master, byte address of the request.
output addr_t [NumBanks-1:0] mem_addr_o,
/// Memory stream master, write data for this bank. Valid when `mem_req_o`.
output mem_data_t [NumBanks-1:0] mem_wdata_o,
/// Memory stream master, byte-wise strobe (byte enable).
output mem_strb_t [NumBanks-1:0] mem_strb_o,
/// Memory stream master, `axi_pkg::atop_t` signal associated with this request.
output axi_pkg::atop_t [NumBanks-1:0] mem_atop_o,
/// Memory stream master, write enable. Then asserted store of `mem_w_data` is requested.
output logic [NumBanks-1:0] mem_we_o,
/// Memory stream master, response is valid. This module expects always a response valid for a
/// request regardless if the request was a write or a read.
input logic [NumBanks-1:0] mem_rvalid_i,
/// Memory stream master, read response data.
input mem_data_t [NumBanks-1:0] mem_rdata_i
);
axi_to_detailed_mem #(
.axi_req_t ( axi_req_t ),
.axi_resp_t ( axi_resp_t ),
.AddrWidth ( AddrWidth ),
.DataWidth ( DataWidth ),
.IdWidth ( IdWidth ),
.UserWidth ( 1 ),
.NumBanks ( NumBanks ),
.BufDepth ( BufDepth ),
.HideStrb ( HideStrb ),
.OutFifoDepth ( OutFifoDepth )
) i_axi_to_detailed_mem (
.clk_i,
.rst_ni,
.busy_o,
.axi_req_i ( axi_req_i ),
.axi_resp_o ( axi_resp_o ),
.mem_req_o ( mem_req_o ),
.mem_gnt_i ( mem_gnt_i ),
.mem_addr_o ( mem_addr_o ),
.mem_wdata_o ( mem_wdata_o ),
.mem_strb_o ( mem_strb_o ),
.mem_atop_o ( mem_atop_o ),
.mem_lock_o (),
.mem_we_o ( mem_we_o ),
.mem_id_o (),
.mem_user_o (),
.mem_cache_o (),
.mem_prot_o (),
.mem_qos_o (),
.mem_region_o (),
.mem_rvalid_i ( mem_rvalid_i ),
.mem_rdata_i ( mem_rdata_i ),
.mem_err_i ('0),
.mem_exokay_i ('0)
);
endmodule
`include "axi/assign.svh"
`include "axi/typedef.svh"
/// Interface wrapper for module `axi_to_mem`.
module axi_to_mem_intf #(
/// See `axi_to_mem`, parameter `AddrWidth`.
parameter int unsigned ADDR_WIDTH = 32'd0,
/// See `axi_to_mem`, parameter `DataWidth`.
parameter int unsigned DATA_WIDTH = 32'd0,
/// AXI4+ATOP ID width.
parameter int unsigned ID_WIDTH = 32'd0,
/// AXI4+ATOP user width.
parameter int unsigned USER_WIDTH = 32'd0,
/// See `axi_to_mem`, parameter `NumBanks`.
parameter int unsigned NUM_BANKS = 32'd0,
/// See `axi_to_mem`, parameter `BufDepth`.
parameter int unsigned BUF_DEPTH = 32'd1,
/// Hide write requests if the strb == '0
parameter bit HIDE_STRB = 1'b0,
/// Depth of output fifo/fall_through_register. Increase for asymmetric backpressure (contention) on banks.
parameter int unsigned OUT_FIFO_DEPTH = 32'd1,
/// Dependent parameter, do not override. See `axi_to_mem`, parameter `addr_t`.
localparam type addr_t = logic [ADDR_WIDTH-1:0],
/// Dependent parameter, do not override. See `axi_to_mem`, parameter `mem_data_t`.
localparam type mem_data_t = logic [DATA_WIDTH/NUM_BANKS-1:0],
/// Dependent parameter, do not override. See `axi_to_mem`, parameter `mem_strb_t`.
localparam type mem_strb_t = logic [DATA_WIDTH/NUM_BANKS/8-1:0]
) (
/// Clock input.
input logic clk_i,
/// Asynchronous reset, active low.
input logic rst_ni,
/// See `axi_to_mem`, port `busy_o`.
output logic busy_o,
/// AXI4+ATOP slave interface port.
AXI_BUS.Slave slv,
/// See `axi_to_mem`, port `mem_req_o`.
output logic [NUM_BANKS-1:0] mem_req_o,
/// See `axi_to_mem`, port `mem_gnt_i`.
input logic [NUM_BANKS-1:0] mem_gnt_i,
/// See `axi_to_mem`, port `mem_addr_o`.
output addr_t [NUM_BANKS-1:0] mem_addr_o,
/// See `axi_to_mem`, port `mem_wdata_o`.
output mem_data_t [NUM_BANKS-1:0] mem_wdata_o,
/// See `axi_to_mem`, port `mem_strb_o`.
output mem_strb_t [NUM_BANKS-1:0] mem_strb_o,
/// See `axi_to_mem`, port `mem_atop_o`.
output axi_pkg::atop_t [NUM_BANKS-1:0] mem_atop_o,
/// See `axi_to_mem`, port `mem_we_o`.
output logic [NUM_BANKS-1:0] mem_we_o,
/// See `axi_to_mem`, port `mem_rvalid_i`.
input logic [NUM_BANKS-1:0] mem_rvalid_i,
/// See `axi_to_mem`, port `mem_rdata_i`.
input mem_data_t [NUM_BANKS-1:0] mem_rdata_i
);
typedef logic [ID_WIDTH-1:0] id_t;
typedef logic [DATA_WIDTH-1:0] data_t;
typedef logic [DATA_WIDTH/8-1:0] strb_t;
typedef logic [USER_WIDTH-1:0] user_t;
`AXI_TYPEDEF_AW_CHAN_T(aw_chan_t, addr_t, id_t, user_t)
`AXI_TYPEDEF_W_CHAN_T(w_chan_t, data_t, strb_t, user_t)
`AXI_TYPEDEF_B_CHAN_T(b_chan_t, id_t, user_t)
`AXI_TYPEDEF_AR_CHAN_T(ar_chan_t, addr_t, id_t, user_t)
`AXI_TYPEDEF_R_CHAN_T(r_chan_t, data_t, id_t, user_t)
`AXI_TYPEDEF_REQ_T(req_t, aw_chan_t, w_chan_t, ar_chan_t)
`AXI_TYPEDEF_RESP_T(resp_t, b_chan_t, r_chan_t)
req_t req;
resp_t resp;
`AXI_ASSIGN_TO_REQ(req, slv)
`AXI_ASSIGN_FROM_RESP(slv, resp)
axi_to_mem #(
.axi_req_t ( req_t ),
.axi_resp_t ( resp_t ),
.AddrWidth ( ADDR_WIDTH ),
.DataWidth ( DATA_WIDTH ),
.IdWidth ( ID_WIDTH ),
.NumBanks ( NUM_BANKS ),
.BufDepth ( BUF_DEPTH ),
.HideStrb ( HIDE_STRB ),
.OutFifoDepth ( OUT_FIFO_DEPTH )
) i_axi_to_mem (
.clk_i,
.rst_ni,
.busy_o,
.axi_req_i ( req ),
.axi_resp_o ( resp ),
.mem_req_o,
.mem_gnt_i,
.mem_addr_o,
.mem_wdata_o,
.mem_strb_o,
.mem_atop_o,
.mem_we_o,
.mem_rvalid_i,
.mem_rdata_i
);
endmodule