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oh/elink/hdl/erx_disty.v

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Verilog
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/*
########################################################################
EPIPHANY eMesh Filter / Distributor
########################################################################
This block takes one eMesh input, selected from two available
(MMU or direct), and distributes the transactions based on type
(write, read request, read response).
*/
module erx_disty (/*AUTOARG*/
// Outputs
emesh_rd_wait, emesh_wr_wait, emwr_wr_en, emrq_wr_en, emrr_wr_en,
erx_write, erx_datamode, erx_ctrlmode, erx_dstaddr, erx_srcaddr,
erx_data,
// Inputs
clk, mmu_en, emmu_access, emmu_write, emmu_datamode, emmu_ctrlmode,
emmu_dstaddr, emmu_srcaddr, emmu_data, emwr_progfull,
emrq_progfull, emrr_progfull, ecfg_rx_enable
);
parameter [11:0] C_READ_TAG_ADDR = 12'h810;
parameter C_REMAP_BITS = 7;
parameter [31:0] C_REMAP_ADDR = 32'h3E000000;
// RX clock
input clk;
// MMU enable
input mmu_en;
//Inputs from MMU
input emmu_access;
input emmu_write;
input [1:0] emmu_datamode;
input [3:0] emmu_ctrlmode;
input [31:0] emmu_dstaddr;
input [31:0] emmu_srcaddr;
input [31:0] emmu_data;
output emesh_rd_wait;
output emesh_wr_wait;
// Master FIFO port, writes
output emwr_wr_en;
input emwr_progfull;
// Master FIFO port, read requests
output emrq_wr_en;
input emrq_progfull;
// Master FIFO port, read responses
output emrr_wr_en;
input emrr_progfull;
//Master Transaction for all FIFOs
output erx_write;
output [1:0] erx_datamode;
output [3:0] erx_ctrlmode;
output [31:0] erx_dstaddr;
output [31:0] erx_srcaddr;
output [31:0] erx_data;
// Control bits inputs
input ecfg_rx_enable;//TODO: what to do with this?
//############
//# REGS
//############
reg erx_write;
reg [1:0] erx_datamode;
reg [3:0] erx_ctrlmode;
reg [31:0] erx_dstaddr;
reg [31:0] erx_srcaddr;
reg [31:0] erx_data;
reg emwr_wr_en;
reg emrq_wr_en;
reg emrr_wr_en;
//############
//# PIPELINE AND DISTRIBUTE
//############
always @ (posedge clk)
begin
erx_write <= emmu_write;
erx_datamode[1:0] <= emmu_datamode[1:0];
erx_ctrlmode[3:0] <= emmu_ctrlmode[3:0];
erx_dstaddr[31:0] <= mmu_en ? emmu_dstaddr[31:0] : {C_REMAP_ADDR[31:(32-C_REMAP_BITS)],
emmu_dstaddr[(31-C_REMAP_BITS):0]};
erx_srcaddr[31:0] <= emmu_srcaddr[31:0];
erx_data[31:0] <= emmu_data[31:0];
end
always @ (posedge clk)
if(emmu_access)
begin
emrq_wr_en <= ~emmu_write;
emrr_wr_en <= emmu_write & (emmu_dstaddr[31:20] == C_READ_TAG_ADDR);
emwr_wr_en <= emmu_write & (emmu_dstaddr[31:20] != C_READ_TAG_ADDR);
end
else
begin
emrq_wr_en <= 1'b0;
emrr_wr_en <= 1'b0;
emwr_wr_en <= 1'b0;
end
//#############################
//# Wait signal passthroughs
//#############################
assign emesh_rd_wait = emrq_progfull;
assign emesh_wr_wait = emwr_progfull | emrr_progfull;
endmodule // erx_disty
/*
This file is part of the Parallella Project.
Copyright (C) 2014 Adapteva, Inc.
Contributed by Fred Huettig <fred@adapteva.com>
Contributed by Andreas Olofsson <andreas@adapteva.com>
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program (see the file COPYING). If not, see
<http://www.gnu.org/licenses/>.
*/
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