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[/] [zipcpu/] [trunk/] [rtl/] [aux/] [wbpriarbiter.v] - Rev 110
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/////////////////////////////////////////////////////////////////////////// // // Filename: wbpriarbiter.v // // Project: Zip CPU -- a small, lightweight, RISC CPU soft core // // Purpose: This is a priority bus arbiter. It allows two separate wishbone // masters to connect to the same bus, while also guaranteeing // that one master can have the bus with no delay any time the // other master is not using the bus. The goal is to eliminate // the combinatorial logic required in the other wishbone // arbiter, while still guarateeing access time for the priority // channel. // // The core logic works like this: // // 1. When no one requests the bus, 'A' is granted the bus and // guaranteed that any access will go right through. // 2. If 'B' requests the bus (asserts cyc), and the bus is idle, // then 'B' will be granted the bus. // 3. Bus grants last as long as the 'cyc' line is high. // 4. Once 'cyc' is dropped, the bus returns to 'A' as the owner. // // // Creator: Dan Gisselquist, Ph.D. // Gisselquist Technology, LLC // /////////////////////////////////////////////////////////////////////////// // // Copyright (C) 2015, Gisselquist Technology, LLC // // This program is free software (firmware): 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 MERCHANTIBILITY or // FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License // for more details. // // License: GPL, v3, as defined and found on www.gnu.org, // http://www.gnu.org/licenses/gpl.html // // /////////////////////////////////////////////////////////////////////////// // module wbpriarbiter(i_clk, // Bus A i_a_cyc, i_a_stb, i_a_we, i_a_adr, i_a_dat, o_a_ack, o_a_stall, o_a_err, // Bus B i_b_cyc, i_b_stb, i_b_we, i_b_adr, i_b_dat, o_b_ack, o_b_stall, o_b_err, // Both buses o_cyc, o_stb, o_we, o_adr, o_dat, i_ack, i_stall, i_err); parameter DW=32, AW=32; // input i_clk; // Bus A input i_a_cyc, i_a_stb, i_a_we; input [(AW-1):0] i_a_adr; input [(DW-1):0] i_a_dat; output wire o_a_ack, o_a_stall, o_a_err; // Bus B input i_b_cyc, i_b_stb, i_b_we; input [(AW-1):0] i_b_adr; input [(DW-1):0] i_b_dat; output wire o_b_ack, o_b_stall, o_b_err; // output wire o_cyc, o_stb, o_we; output wire [(AW-1):0] o_adr; output wire [(DW-1):0] o_dat; input i_ack, i_stall, i_err; // Go high immediately (new cycle) if ... // Previous cycle was low and *someone* is requesting a bus cycle // Go low immadiately if ... // We were just high and the owner no longer wants the bus // WISHBONE Spec recommends no logic between a FF and the o_cyc // This violates that spec. (Rec 3.15, p35) assign o_cyc = (r_a_owner) ? i_a_cyc : i_b_cyc; reg r_a_owner; initial r_a_owner = 1'b1; always @(posedge i_clk) if (~i_b_cyc) r_a_owner <= 1'b1; else if ((i_b_cyc)&&(~i_a_cyc)) r_a_owner <= 1'b0; // Realistically, if neither master owns the bus, the output is a // don't care. Thus we trigger off whether or not 'A' owns the bus. // If 'B' owns it all we care is that 'A' does not. Likewise, if // neither owns the bus than the values on the various lines are // irrelevant. assign o_stb = (r_a_owner) ? i_a_stb : i_b_stb; assign o_we = (r_a_owner) ? i_a_we : i_b_we; assign o_adr = (r_a_owner) ? i_a_adr : i_b_adr; assign o_dat = (r_a_owner) ? i_a_dat : i_b_dat; // We cannot allow the return acknowledgement to ever go high if // the master in question does not own the bus. Hence we force it // low if the particular master doesn't own the bus. assign o_a_ack = ( r_a_owner) ? i_ack : 1'b0; assign o_b_ack = (~r_a_owner) ? i_ack : 1'b0; // Stall must be asserted on the same cycle the input master asserts // the bus, if the bus isn't granted to him. assign o_a_stall = ( r_a_owner) ? i_stall : 1'b1; assign o_b_stall = (~r_a_owner) ? i_stall : 1'b1; // // assign o_a_err = ( r_a_owner) ? i_err : 1'b0; assign o_b_err = (~r_a_owner) ? i_err : 1'b0; endmodule
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