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axi_lite_demux.sv
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// Copyright (c) 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:
// - Wolfgang Roenninger <wroennin@iis.ee.ethz.ch>
// - Andreas Kurth <akurth@iis.ee.ethz.ch>
`include "common_cells/registers.svh"
`ifdef QUESTA
// Derive `TARGET_VSIM`, which is used for tool-specific workarounds in this file, from `QUESTA`,
// which is automatically set in Questa.
`define TARGET_VSIM
`endif
// axi_lite_demux: Demultiplex an AXI4-Lite bus from one slave port to multiple master ports.
// The selection signal at the AW and AR channel has to follow the same
// stability rules as the corresponding AXI4-Lite channel.
module axi_lite_demux #(
parameter type aw_chan_t = logic, // AXI4-Lite AW channel
parameter type w_chan_t = logic, // AXI4-Lite W channel
parameter type b_chan_t = logic, // AXI4-Lite B channel
parameter type ar_chan_t = logic, // AXI4-Lite AR channel
parameter type r_chan_t = logic, // AXI4-Lite R channel
parameter type axi_req_t = logic, // AXI4-Lite request struct
parameter type axi_resp_t = logic, // AXI4-Lite response struct
parameter int unsigned NoMstPorts = 32'd0, // Number of instantiated ports
parameter int unsigned MaxTrans = 32'd0, // Maximum number of open transactions per channel
parameter bit FallThrough = 1'b0, // FIFOs are in fall through mode
parameter bit SpillAw = 1'b1, // insert one cycle latency on slave AW
parameter bit SpillW = 1'b0, // insert one cycle latency on slave W
parameter bit SpillB = 1'b0, // insert one cycle latency on slave B
parameter bit SpillAr = 1'b1, // insert one cycle latency on slave AR
parameter bit SpillR = 1'b0, // insert one cycle latency on slave R
// Dependent parameters, DO NOT OVERRIDE!
parameter type select_t = logic [$clog2(NoMstPorts)-1:0]
) (
input logic clk_i,
input logic rst_ni,
input logic test_i,
// slave port (AXI4-Lite input), connect master module here
input axi_req_t slv_req_i,
input select_t slv_aw_select_i,
input select_t slv_ar_select_i,
output axi_resp_t slv_resp_o,
// master ports (AXI4-Lite outputs), connect slave modules here
output axi_req_t [NoMstPorts-1:0] mst_reqs_o,
input axi_resp_t [NoMstPorts-1:0] mst_resps_i
);
//--------------------------------------
// Typedefs for the spill registers
//--------------------------------------
typedef struct packed {
aw_chan_t aw;
select_t select;
} aw_chan_select_t;
typedef struct packed {
ar_chan_t ar;
select_t select;
} ar_chan_select_t;
if (NoMstPorts == 32'd1) begin : gen_no_demux
// degenerate case, connect slave to master port
spill_register #(
.T ( aw_chan_t ),
.Bypass ( ~SpillAw )
) i_aw_spill_reg (
.clk_i ( clk_i ),
.rst_ni ( rst_ni ),
.valid_i ( slv_req_i.aw_valid ),
.ready_o ( slv_resp_o.aw_ready ),
.data_i ( slv_req_i.aw ),
.valid_o ( mst_reqs_o[0].aw_valid ),
.ready_i ( mst_resps_i[0].aw_ready ),
.data_o ( mst_reqs_o[0].aw )
);
spill_register #(
.T ( w_chan_t ),
.Bypass ( ~SpillW )
) i_w_spill_reg (
.clk_i ( clk_i ),
.rst_ni ( rst_ni ),
.valid_i ( slv_req_i.w_valid ),
.ready_o ( slv_resp_o.w_ready ),
.data_i ( slv_req_i.w ),
.valid_o ( mst_reqs_o[0].w_valid ),
.ready_i ( mst_resps_i[0].w_ready ),
.data_o ( mst_reqs_o[0].w )
);
spill_register #(
.T ( b_chan_t ),
.Bypass ( ~SpillB )
) i_b_spill_reg (
.clk_i ( clk_i ),
.rst_ni ( rst_ni ),
.valid_i ( mst_resps_i[0].b_valid ),
.ready_o ( mst_reqs_o[0].b_ready ),
.data_i ( mst_resps_i[0].b ),
.valid_o ( slv_resp_o.b_valid ),
.ready_i ( slv_req_i.b_ready ),
.data_o ( slv_resp_o.b )
);
spill_register #(
.T ( ar_chan_t ),
.Bypass ( ~SpillAr )
) i_ar_spill_reg (
.clk_i ( clk_i ),
.rst_ni ( rst_ni ),
.valid_i ( slv_req_i.ar_valid ),
.ready_o ( slv_resp_o.ar_ready ),
.data_i ( slv_req_i.ar ),
.valid_o ( mst_reqs_o[0].ar_valid ),
.ready_i ( mst_resps_i[0].ar_ready ),
.data_o ( mst_reqs_o[0].ar )
);
spill_register #(
.T ( r_chan_t ),
.Bypass ( ~SpillR )
) i_r_spill_reg (
.clk_i ( clk_i ),
.rst_ni ( rst_ni ),
.valid_i ( mst_resps_i[0].r_valid ),
.ready_o ( mst_reqs_o[0].r_ready ),
.data_i ( mst_resps_i[0].r ),
.valid_o ( slv_resp_o.r_valid ),
.ready_i ( slv_req_i.r_ready ),
.data_o ( slv_resp_o.r )
);
end else begin : gen_demux
// normal non degenerate case
//--------------------------------------
//--------------------------------------
// Signal Declarations
//--------------------------------------
//--------------------------------------
//--------------------------------------
// Write Transaction
//--------------------------------------
aw_chan_select_t slv_aw_chan;
logic slv_aw_valid, slv_aw_ready;
logic [NoMstPorts-1:0] mst_aw_valids, mst_aw_readies;
logic lock_aw_valid_d, lock_aw_valid_q, load_aw_lock;
logic w_fifo_push, w_fifo_pop;
logic w_fifo_full, w_fifo_empty;
w_chan_t slv_w_chan;
select_t w_select;
logic slv_w_valid, slv_w_ready;
logic /*w_pop*/ b_fifo_pop;
logic b_fifo_full, b_fifo_empty;
b_chan_t slv_b_chan;
select_t b_select;
logic slv_b_valid, slv_b_ready;
//--------------------------------------
// Read Transaction
//--------------------------------------
ar_chan_select_t slv_ar_chan;
logic slv_ar_valid, slv_ar_ready;
logic r_fifo_push, r_fifo_pop;
logic r_fifo_full, r_fifo_empty;
r_chan_t slv_r_chan;
select_t r_select;
logic slv_r_valid, slv_r_ready;
//--------------------------------------
//--------------------------------------
// Channel control
//--------------------------------------
//--------------------------------------
//--------------------------------------
// AW Channel
//--------------------------------------
`ifdef TARGET_VSIM
// Workaround for bug in Questa 2020.2 and 2021.1: Flatten the struct into a logic vector before
// instantiating `spill_register`.
typedef logic [$bits(aw_chan_select_t)-1:0] aw_chan_select_flat_t;
`else
// Other tools, such as VCS, have problems with `$bits()`, so the workaround cannot be used
// generally.
typedef aw_chan_select_t aw_chan_select_flat_t;
`endif
aw_chan_select_flat_t slv_aw_chan_select_in_flat,
slv_aw_chan_select_out_flat;
assign slv_aw_chan_select_in_flat = {slv_req_i.aw, slv_aw_select_i};
spill_register #(
.T ( aw_chan_select_flat_t ),
.Bypass ( ~SpillAw )
) i_aw_spill_reg (
.clk_i ( clk_i ),
.rst_ni ( rst_ni ),
.valid_i ( slv_req_i.aw_valid ),
.ready_o ( slv_resp_o.aw_ready ),
.data_i ( slv_aw_chan_select_in_flat ),
.valid_o ( slv_aw_valid ),
.ready_i ( slv_aw_ready ),
.data_o ( slv_aw_chan_select_out_flat )
);
assign slv_aw_chan = slv_aw_chan_select_out_flat;
// replicate AW channel to the request output
for (genvar i = 0; i < NoMstPorts; i++) begin : gen_mst_aw
assign mst_reqs_o[i].aw = slv_aw_chan.aw;
assign mst_reqs_o[i].aw_valid = mst_aw_valids[i];
assign mst_aw_readies[i] = mst_resps_i[i].aw_ready;
end
// AW channel handshake control
always_comb begin
// default assignments
lock_aw_valid_d = lock_aw_valid_q;
load_aw_lock = 1'b0;
// handshake
slv_aw_ready = 1'b0;
mst_aw_valids = '0;
// W FIFO input control
w_fifo_push = 1'b0;
// control
if (lock_aw_valid_q) begin
// AW channel is locked and has valid output, fifo was pushed, as the new request was issued
mst_aw_valids[slv_aw_chan.select] = 1'b1;
if (mst_aw_readies[slv_aw_chan.select]) begin
// transaction, go back to IDLE
slv_aw_ready = 1'b1;
lock_aw_valid_d = 1'b0;
load_aw_lock = 1'b1;
end
end else begin
if (!w_fifo_full && slv_aw_valid) begin
// new transaction, push select in the FIFO and then look if transaction happened
w_fifo_push = 1'b1;
mst_aw_valids[slv_aw_chan.select] = 1'b1; // only set the valid when FIFO is not full
if (mst_aw_readies[slv_aw_chan.select]) begin
// transaction, notify slave port
slv_aw_ready = 1'b1;
end else begin
// no transaction, lock valid
lock_aw_valid_d = 1'b1;
load_aw_lock = 1'b1;
end
end
end
end
// lock the valid signal, as the selection gets pushed into the W FIFO on first assertion,
// prevent further pushing
`FFLARN(lock_aw_valid_q, lock_aw_valid_d, load_aw_lock, '0, clk_i, rst_ni)
fifo_v3 #(
.FALL_THROUGH( FallThrough ),
.DEPTH ( MaxTrans ),
.dtype ( select_t )
) i_w_fifo (
.clk_i ( clk_i ),
.rst_ni ( rst_ni ),
.flush_i ( 1'b0 ), // not used, because AXI4-Lite no preemtion rule
.testmode_i ( test_i ),
.full_o ( w_fifo_full ),
.empty_o ( w_fifo_empty ),
.usage_o ( /*not used*/ ),
.data_i ( slv_aw_chan.select ),
.push_i ( w_fifo_push ),
.data_o ( w_select ),
.pop_i ( w_fifo_pop )
);
//--------------------------------------
// W Channel
//--------------------------------------
spill_register #(
.T ( w_chan_t ),
.Bypass ( ~SpillW )
) i_w_spill_reg (
.clk_i ( clk_i ),
.rst_ni ( rst_ni ),
.valid_i ( slv_req_i.w_valid ),
.ready_o ( slv_resp_o.w_ready ),
.data_i ( slv_req_i.w ),
.valid_o ( slv_w_valid ),
.ready_i ( slv_w_ready ),
.data_o ( slv_w_chan )
);
// replicate W channel
for (genvar i = 0; i < NoMstPorts; i++) begin : gen_mst_w
assign mst_reqs_o[i].w = slv_w_chan;
assign mst_reqs_o[i].w_valid = ~w_fifo_empty & ~b_fifo_full &
slv_w_valid & (w_select == select_t'(i));
end
assign slv_w_ready = ~w_fifo_empty & ~b_fifo_full & mst_resps_i[w_select].w_ready;
assign w_fifo_pop = slv_w_valid & slv_w_ready;
fifo_v3 #(
.FALL_THROUGH( FallThrough ),
.DEPTH ( MaxTrans ),
.dtype ( select_t )
) i_b_fifo (
.clk_i ( clk_i ),
.rst_ni ( rst_ni ),
.flush_i ( 1'b0 ), // not used, because AXI4-Lite no preemption
.testmode_i ( test_i ),
.full_o ( b_fifo_full ),
.empty_o ( b_fifo_empty ),
.usage_o ( /*not used*/ ),
.data_i ( w_select ),
.push_i ( w_fifo_pop ), // w beat was transferred, push selection to b channel
.data_o ( b_select ),
.pop_i ( b_fifo_pop )
);
//--------------------------------------
// B Channel
//--------------------------------------
spill_register #(
.T ( b_chan_t ),
.Bypass ( ~SpillB )
) i_b_spill_reg (
.clk_i ( clk_i ),
.rst_ni ( rst_ni ),
.valid_i ( slv_b_valid ),
.ready_o ( slv_b_ready ),
.data_i ( slv_b_chan ),
.valid_o ( slv_resp_o.b_valid ),
.ready_i ( slv_req_i.b_ready ),
.data_o ( slv_resp_o.b )
);
// connect the response if the FIFO has valid data in it
assign slv_b_chan = (!b_fifo_empty) ? mst_resps_i[b_select].b : '0;
assign slv_b_valid = ~b_fifo_empty & mst_resps_i[b_select].b_valid;
for (genvar i = 0; i < NoMstPorts; i++) begin : gen_mst_b
assign mst_reqs_o[i].b_ready = ~b_fifo_empty & slv_b_ready & (b_select == select_t'(i));
end
assign b_fifo_pop = slv_b_valid & slv_b_ready;
//--------------------------------------
// AR Channel
//--------------------------------------
// Workaround for bug in Questa (see comments on AW channel for details).
`ifdef TARGET_VSIM
typedef logic [$bits(ar_chan_select_t)-1:0] ar_chan_select_flat_t;
`else
typedef ar_chan_select_t ar_chan_select_flat_t;
`endif
ar_chan_select_flat_t slv_ar_chan_select_in_flat,
slv_ar_chan_select_out_flat;
assign slv_ar_chan_select_in_flat = {slv_req_i.ar, slv_ar_select_i};
spill_register #(
.T ( ar_chan_select_flat_t ),
.Bypass ( ~SpillAr )
) i_ar_spill_reg (
.clk_i ( clk_i ),
.rst_ni ( rst_ni ),
.valid_i ( slv_req_i.ar_valid ),
.ready_o ( slv_resp_o.ar_ready ),
.data_i ( slv_ar_chan_select_in_flat ),
.valid_o ( slv_ar_valid ),
.ready_i ( slv_ar_ready ),
.data_o ( slv_ar_chan_select_out_flat )
);
assign slv_ar_chan = slv_ar_chan_select_out_flat;
// replicate AR channel
for (genvar i = 0; i < NoMstPorts; i++) begin : gen_mst_ar
assign mst_reqs_o[i].ar = slv_ar_chan.ar;
assign mst_reqs_o[i].ar_valid = ~r_fifo_full & slv_ar_valid &
(slv_ar_chan.select == select_t'(i));
end
assign slv_ar_ready = ~r_fifo_full & mst_resps_i[slv_ar_chan.select].ar_ready;
assign r_fifo_push = slv_ar_valid & slv_ar_ready;
fifo_v3 #(
.FALL_THROUGH( FallThrough ),
.DEPTH ( MaxTrans ),
.dtype ( select_t )
) i_r_fifo (
.clk_i ( clk_i ),
.rst_ni ( rst_ni ),
.flush_i ( 1'b0 ), // not used, because AXI4-Lite no preemption rule
.testmode_i ( test_i ),
.full_o ( r_fifo_full ),
.empty_o ( r_fifo_empty ),
.usage_o ( /*not used*/ ),
.data_i ( slv_ar_chan.select ),
.push_i ( r_fifo_push ),
.data_o ( r_select ),
.pop_i ( r_fifo_pop )
);
//--------------------------------------
// R Channel
//--------------------------------------
spill_register #(
.T ( r_chan_t ),
.Bypass ( ~SpillR )
) i_r_spill_reg (
.clk_i ( clk_i ),
.rst_ni ( rst_ni ),
.valid_i ( slv_r_valid ),
.ready_o ( slv_r_ready ),
.data_i ( slv_r_chan ),
.valid_o ( slv_resp_o.r_valid ),
.ready_i ( slv_req_i.r_ready ),
.data_o ( slv_resp_o.r )
);
// connect the response if the FIFO has valid data in it
always_comb begin
slv_r_chan = '0;
slv_r_valid = '0;
if (!r_fifo_empty) begin
slv_r_chan = mst_resps_i[r_select].r;
slv_r_valid = mst_resps_i[r_select].r_valid;
end
end
for (genvar i = 0; i < NoMstPorts; i++) begin : gen_mst_r
assign mst_reqs_o[i].r_ready = ~r_fifo_empty & slv_r_ready & (r_select == select_t'(i));
end
assign r_fifo_pop = slv_r_valid & slv_r_ready;
// pragma translate_off
`ifndef VERILATOR
default disable iff (!rst_ni);
aw_select: assume property( @(posedge clk_i) (slv_req_i.aw_valid |->
(slv_aw_select_i < NoMstPorts))) else
$fatal(1, "slv_aw_select_i is %d: AW has selected a slave that is not defined.\
NoMstPorts: %d", slv_aw_select_i, NoMstPorts);
ar_select: assume property( @(posedge clk_i) (slv_req_i.ar_valid |->
(slv_ar_select_i < NoMstPorts))) else
$fatal(1, "slv_ar_select_i is %d: AR has selected a slave that is not defined.\
NoMstPorts: %d", slv_ar_select_i, NoMstPorts);
aw_valid_stable: assert property( @(posedge clk_i) (slv_aw_valid && !slv_aw_ready)
|=> slv_aw_valid) else
$fatal(1, "aw_valid was deasserted, when aw_ready = 0 in last cycle.");
ar_valid_stable: assert property( @(posedge clk_i) (slv_ar_valid && !slv_ar_ready)
|=> slv_ar_valid) else
$fatal(1, "ar_valid was deasserted, when ar_ready = 0 in last cycle.");
aw_stable: assert property( @(posedge clk_i) (slv_aw_valid && !slv_aw_ready)
|=> $stable(slv_aw_chan)) else
$fatal(1, "slv_aw_chan_select unstable with valid set.");
ar_stable: assert property( @(posedge clk_i) (slv_ar_valid && !slv_ar_ready)
|=> $stable(slv_ar_chan)) else
$fatal(1, "slv_aw_chan_select unstable with valid set.");
`endif
// pragma translate_on
end
// pragma translate_off
`ifndef VERILATOR
initial begin: p_assertions
NoPorts: assert (NoMstPorts > 0) else $fatal("Number of master ports must be at least 1!");
MaxTnx: assert (MaxTrans > 0) else $fatal("Number of transactions must be at least 1!");
end
`endif
// pragma translate_on
endmodule
`include "axi/assign.svh"
`include "axi/typedef.svh"
module axi_lite_demux_intf #(
parameter int unsigned AxiAddrWidth = 32'd0,
parameter int unsigned AxiDataWidth = 32'd0,
parameter int unsigned NoMstPorts = 32'd0,
parameter int unsigned MaxTrans = 32'd0,
parameter bit FallThrough = 1'b0,
parameter bit SpillAw = 1'b1,
parameter bit SpillW = 1'b0,
parameter bit SpillB = 1'b0,
parameter bit SpillAr = 1'b1,
parameter bit SpillR = 1'b0,
// Dependent parameters, DO NOT OVERRIDE!
parameter type select_t = logic [$clog2(NoMstPorts)-1:0]
) (
input logic clk_i, // Clock
input logic rst_ni, // Asynchronous reset active low
input logic test_i, // Testmode enable
input select_t slv_aw_select_i, // has to be stable, when aw_valid
input select_t slv_ar_select_i, // has to be stable, when ar_valid
AXI_LITE.Slave slv, // slave port
AXI_LITE.Master mst [NoMstPorts-1:0] // master ports
);
typedef logic [AxiAddrWidth-1:0] addr_t;
typedef logic [AxiDataWidth-1:0] data_t;
typedef logic [AxiDataWidth/8-1:0] strb_t;
`AXI_LITE_TYPEDEF_AW_CHAN_T(aw_chan_t, addr_t)
`AXI_LITE_TYPEDEF_W_CHAN_T(w_chan_t, data_t, strb_t)
`AXI_LITE_TYPEDEF_B_CHAN_T(b_chan_t)
`AXI_LITE_TYPEDEF_AR_CHAN_T(ar_chan_t, addr_t)
`AXI_LITE_TYPEDEF_R_CHAN_T(r_chan_t, data_t)
`AXI_LITE_TYPEDEF_REQ_T(axi_req_t, aw_chan_t, w_chan_t, ar_chan_t)
`AXI_LITE_TYPEDEF_RESP_T(axi_resp_t, b_chan_t, r_chan_t)
axi_req_t slv_req;
axi_resp_t slv_resp;
axi_req_t [NoMstPorts-1:0] mst_reqs;
axi_resp_t [NoMstPorts-1:0] mst_resps;
`AXI_LITE_ASSIGN_TO_REQ(slv_req, slv)
`AXI_LITE_ASSIGN_FROM_RESP(slv, slv_resp)
for (genvar i = 0; i < NoMstPorts; i++) begin : gen_assign_mst_ports
`AXI_LITE_ASSIGN_FROM_REQ(mst[i], mst_reqs[i])
`AXI_LITE_ASSIGN_TO_RESP(mst_resps[i], mst[i])
end
axi_lite_demux #(
.aw_chan_t ( aw_chan_t ),
.w_chan_t ( w_chan_t ),
.b_chan_t ( b_chan_t ),
.ar_chan_t ( ar_chan_t ),
.r_chan_t ( r_chan_t ),
.axi_req_t ( axi_req_t ),
.axi_resp_t ( axi_resp_t ),
.NoMstPorts ( NoMstPorts ),
.MaxTrans ( MaxTrans ),
.FallThrough ( FallThrough ),
.SpillAw ( SpillAw ),
.SpillW ( SpillW ),
.SpillB ( SpillB ),
.SpillAr ( SpillAr ),
.SpillR ( SpillR )
) i_axi_demux (
.clk_i,
.rst_ni,
.test_i,
// slave Port
.slv_req_i ( slv_req ),
.slv_aw_select_i ( slv_aw_select_i ), // must be stable while slv_aw_valid_i
.slv_ar_select_i ( slv_ar_select_i ), // must be stable while slv_ar_valid_i
.slv_resp_o ( slv_resp ),
// mster ports
.mst_reqs_o ( mst_reqs ),
.mst_resps_i ( mst_resps )
);
// pragma translate_off
`ifndef VERILATOR
initial begin: p_assertions
AddrWidth: assert (AxiAddrWidth > 0) else $fatal("Axi Parmeter has to be > 0!");
DataWidth: assert (AxiDataWidth > 0) else $fatal("Axi Parmeter has to be > 0!");
end
`endif
// pragma translate_on
endmodule