// Copyright © 2019-2023 // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the 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. `include "VX_define.vh" module VX_schedule import VX_gpu_pkg::*; #( parameter CORE_ID = 0 ) ( input wire clk, input wire reset, `ifdef PERF_ENABLE VX_pipeline_perf_if.schedule perf_schedule_if, `endif // configuration input base_dcrs_t base_dcrs, // inputsdecode_if VX_warp_ctl_if.slave warp_ctl_if, VX_branch_ctl_if.slave branch_ctl_if [`NUM_ALU_BLOCKS], VX_decode_sched_if.slave decode_sched_if, VX_commit_sched_if.slave commit_sched_if, // outputs VX_schedule_if.master schedule_if, `ifdef GBAR_ENABLE VX_gbar_bus_if.master gbar_bus_if, `endif VX_sched_csr_if.master sched_csr_if, // status output wire busy ); `UNUSED_PARAM (CORE_ID) reg [`NUM_WARPS-1:0] active_warps, active_warps_n; // updated when a warp is activated or disabled reg [`NUM_WARPS-1:0] stalled_warps, stalled_warps_n; // set when branch/gpgpu instructions are issued reg [`NUM_WARPS-1:0][`NUM_THREADS-1:0] thread_masks, thread_masks_n; reg [`NUM_WARPS-1:0][`XLEN-1:0] warp_pcs, warp_pcs_n; wire [`NW_WIDTH-1:0] schedule_wid; wire [`NUM_THREADS-1:0] schedule_tmask; wire [`XLEN-1:0] schedule_pc; wire schedule_valid; wire schedule_ready; // split/join wire join_valid; wire join_is_dvg; wire join_is_else; wire [`NW_WIDTH-1:0] join_wid; wire [`NUM_THREADS-1:0] join_tmask; wire [`XLEN-1:0] join_pc; reg [`PERF_CTR_BITS-1:0] cycles; reg [`NUM_WARPS-1:0][`UUID_WIDTH-1:0] issued_instrs; wire schedule_fire = schedule_valid && schedule_ready; wire schedule_if_fire = schedule_if.valid && schedule_if.ready; // branch wire [`NUM_ALU_BLOCKS-1:0] branch_valid; wire [`NUM_ALU_BLOCKS-1:0][`NW_WIDTH-1:0] branch_wid; wire [`NUM_ALU_BLOCKS-1:0] branch_taken; wire [`NUM_ALU_BLOCKS-1:0][`XLEN-1:0] branch_dest; for (genvar i = 0; i < `NUM_ALU_BLOCKS; ++i) begin assign branch_valid[i] = branch_ctl_if[i].valid; assign branch_wid[i] = branch_ctl_if[i].wid; assign branch_taken[i] = branch_ctl_if[i].taken; assign branch_dest[i] = branch_ctl_if[i].dest; end // barriers reg [`NUM_BARRIERS-1:0][`NUM_WARPS-1:0] barrier_masks, barrier_masks_n; reg [`NUM_WARPS-1:0] barrier_stalls, barrier_stalls_n; wire [`CLOG2(`NUM_WARPS+1)-1:0] active_barrier_count; wire [`NUM_WARPS-1:0] curr_barrier_mask; `ifdef GBAR_ENABLE reg [`NUM_WARPS-1:0] curr_barrier_mask_n; reg gbar_req_valid; reg [`NB_WIDTH-1:0] gbar_req_id; reg [`NC_WIDTH-1:0] gbar_req_size_m1; `endif assign curr_barrier_mask = barrier_masks[warp_ctl_if.barrier.id]; `POP_COUNT(active_barrier_count, curr_barrier_mask); `UNUSED_VAR (active_barrier_count) always @(*) begin active_warps_n = active_warps; stalled_warps_n = stalled_warps; thread_masks_n = thread_masks; barrier_masks_n = barrier_masks; barrier_stalls_n= barrier_stalls; warp_pcs_n = warp_pcs; // wspawn handling if (warp_ctl_if.valid && warp_ctl_if.wspawn.valid) begin active_warps_n |= warp_ctl_if.wspawn.wmask; for (integer i = 0; i < `NUM_WARPS; ++i) begin if (warp_ctl_if.wspawn.wmask[i]) begin thread_masks_n[i][0] = 1; warp_pcs_n[i] = warp_ctl_if.wspawn.pc; end end stalled_warps_n[warp_ctl_if.wid] = 0; // unlock warp end // TMC handling if (warp_ctl_if.valid && warp_ctl_if.tmc.valid) begin active_warps_n[warp_ctl_if.wid] = (warp_ctl_if.tmc.tmask != 0); thread_masks_n[warp_ctl_if.wid] = warp_ctl_if.tmc.tmask; stalled_warps_n[warp_ctl_if.wid] = 0; // unlock warp end // split handling if (warp_ctl_if.valid && warp_ctl_if.split.valid) begin if (warp_ctl_if.split.is_dvg) begin thread_masks_n[warp_ctl_if.wid] = warp_ctl_if.split.then_tmask; end stalled_warps_n[warp_ctl_if.wid] = 0; // unlock warp end // join handling if (join_valid) begin if (join_is_dvg) begin if (join_is_else) begin warp_pcs_n[join_wid] = join_pc; end thread_masks_n[join_wid] = join_tmask; end stalled_warps_n[join_wid] = 0; // unlock warp end // barrier handling `ifdef GBAR_ENABLE curr_barrier_mask_n = curr_barrier_mask; curr_barrier_mask_n[warp_ctl_if.wid] = 1; `endif if (warp_ctl_if.valid && warp_ctl_if.barrier.valid) begin if (~warp_ctl_if.barrier.is_global && (active_barrier_count[`NW_WIDTH-1:0] == warp_ctl_if.barrier.size_m1[`NW_WIDTH-1:0])) begin barrier_masks_n[warp_ctl_if.barrier.id] = '0; barrier_stalls_n &= ~barrier_masks[warp_ctl_if.barrier.id]; end else begin barrier_masks_n[warp_ctl_if.barrier.id][warp_ctl_if.wid] = 1; barrier_stalls_n[warp_ctl_if.wid] = 1; end stalled_warps_n[warp_ctl_if.wid] = 0; // unlock warp end `ifdef GBAR_ENABLE if (gbar_bus_if.rsp_valid && (gbar_req_id == gbar_bus_if.rsp_id)) begin barrier_masks_n[gbar_bus_if.rsp_id] = '0; barrier_stalls_n = '0; // unlock all warps end `endif // Branch handling for (integer i = 0; i < `NUM_ALU_BLOCKS; ++i) begin if (branch_valid[i]) begin if (branch_taken[i]) begin warp_pcs_n[branch_wid[i]] = branch_dest[i]; end stalled_warps_n[branch_wid[i]] = 0; // unlock warp end end // decode unlock if (decode_sched_if.valid && ~decode_sched_if.is_wstall) begin stalled_warps_n[decode_sched_if.wid] = 0; end // CSR unlock if (sched_csr_if.unlock_warp) begin stalled_warps_n[sched_csr_if.unlock_wid] = 0; end // stall the warp until decode stage if (schedule_fire) begin stalled_warps_n[schedule_wid] = 1; end // advance PC if (schedule_if_fire) begin warp_pcs_n[schedule_if.data.wid] = schedule_if.data.PC + 4; end end `UNUSED_VAR (base_dcrs) always @(posedge clk) begin if (reset) begin barrier_masks <= '0; `ifdef GBAR_ENABLE gbar_req_valid <= 0; `endif stalled_warps <= '0; warp_pcs <= '0; active_warps <= '0; thread_masks <= '0; barrier_stalls <= '0; issued_instrs <= '0; cycles <= '0; // activate first warp warp_pcs[0] <= base_dcrs.startup_addr; active_warps[0] <= 1; thread_masks[0][0] <= 1; end else begin active_warps <= active_warps_n; stalled_warps <= stalled_warps_n; thread_masks <= thread_masks_n; warp_pcs <= warp_pcs_n; barrier_masks <= barrier_masks_n; barrier_stalls <= barrier_stalls_n; // global barrier scheduling `ifdef GBAR_ENABLE if (warp_ctl_if.valid && warp_ctl_if.barrier.valid && warp_ctl_if.barrier.is_global && (curr_barrier_mask_n == active_warps)) begin gbar_req_valid <= 1; gbar_req_id <= warp_ctl_if.barrier.id; gbar_req_size_m1 <= warp_ctl_if.barrier.size_m1[`NC_WIDTH-1:0]; end if (gbar_bus_if.req_valid && gbar_bus_if.req_ready) begin gbar_req_valid <= 0; end `endif if (schedule_if_fire) begin issued_instrs[schedule_if.data.wid] <= issued_instrs[schedule_if.data.wid] + `UUID_WIDTH'(1); end if (busy) begin cycles <= cycles + 1; end end end // barrier handling `ifdef GBAR_ENABLE assign gbar_bus_if.req_valid = gbar_req_valid; assign gbar_bus_if.req_id = gbar_req_id; assign gbar_bus_if.req_size_m1 = gbar_req_size_m1; assign gbar_bus_if.req_core_id = `NC_WIDTH'(CORE_ID % `NUM_CORES); `endif // split/join handling `RESET_RELAY (split_join_reset, reset); VX_split_join #( .CORE_ID (CORE_ID) ) split_join ( .clk (clk), .reset (split_join_reset), .valid (warp_ctl_if.valid), .wid (warp_ctl_if.wid), .split (warp_ctl_if.split), .sjoin (warp_ctl_if.sjoin), .join_valid (join_valid), .join_is_dvg (join_is_dvg), .join_is_else (join_is_else), .join_wid (join_wid), .join_tmask (join_tmask), .join_pc (join_pc) ); // schedule the next ready warp wire [`NUM_WARPS-1:0] ready_warps = active_warps & ~(stalled_warps | barrier_stalls); VX_lzc #( .N (`NUM_WARPS), .REVERSE (1) ) wid_select ( .data_in (ready_warps), .data_out (schedule_wid), .valid_out (schedule_valid) ); wire [`NUM_WARPS-1:0][(`NUM_THREADS + `XLEN)-1:0] schedule_data; for (genvar i = 0; i < `NUM_WARPS; ++i) begin assign schedule_data[i] = {thread_masks[i], warp_pcs[i]}; end assign {schedule_tmask, schedule_pc} = { schedule_data[schedule_wid][(`NUM_THREADS + `XLEN)-1:(`NUM_THREADS + `XLEN)-4], schedule_data[schedule_wid][(`NUM_THREADS + `XLEN)-5:0] }; `ifndef NDEBUG localparam GNW_WIDTH = `LOG2UP(`NUM_CLUSTERS * `NUM_CORES * `NUM_WARPS); reg [`UUID_WIDTH-1:0] instr_uuid; wire [GNW_WIDTH-1:0] g_wid = (GNW_WIDTH'(CORE_ID) << `NW_BITS) + GNW_WIDTH'(schedule_wid); `ifdef SV_DPI always @(posedge clk) begin if (reset) begin instr_uuid <= `UUID_WIDTH'(dpi_uuid_gen(1, 0, 0)); end else if (schedule_fire) begin instr_uuid <= `UUID_WIDTH'(dpi_uuid_gen(0, 32'(g_wid), 64'(schedule_pc))); end end `else wire [GNW_WIDTH+16-1:0] w_uuid = {g_wid, 16'(schedule_pc)}; always @(*) begin instr_uuid = `UUID_WIDTH'(w_uuid); end `endif `else wire [`UUID_WIDTH-1:0] instr_uuid = '0; `endif VX_elastic_buffer #( .DATAW (`NUM_THREADS + `XLEN + `NW_WIDTH) ) out_buf ( .clk (clk), .reset (reset), .valid_in (schedule_valid), .ready_in (schedule_ready), .data_in ({schedule_tmask, schedule_pc, schedule_wid}), .data_out ({schedule_if.data.tmask, schedule_if.data.PC, schedule_if.data.wid}), .valid_out (schedule_if.valid), .ready_out (schedule_if.ready) ); assign schedule_if.data.uuid = instr_uuid; `RESET_RELAY (pending_instr_reset, reset); wire no_pending_instr; VX_pending_instr #( .CTR_WIDTH (12), .DECR_COUNT (`ISSUE_WIDTH), .ALM_EMPTY (1) ) pending_instr( .clk (clk), .reset (pending_instr_reset), .incr (schedule_if_fire), .incr_wid (schedule_if.data.wid), .decr (commit_sched_if.committed), .decr_wid (commit_sched_if.committed_wid), .alm_empty_wid (sched_csr_if.alm_empty_wid), .alm_empty (sched_csr_if.alm_empty), .empty (no_pending_instr) ); `BUFFER_EX(busy, (active_warps != 0 || ~no_pending_instr), 1'b1, 1); // export CSRs assign sched_csr_if.cycles = cycles; assign sched_csr_if.active_warps = active_warps; assign sched_csr_if.thread_masks = thread_masks; // timeout handling reg [31:0] timeout_ctr; reg timeout_enable; always @(posedge clk) begin if (reset) begin timeout_ctr <= '0; timeout_enable <= 0; end else begin if (decode_sched_if.valid && ~decode_sched_if.is_wstall) begin timeout_enable <= 1; end if (timeout_enable && active_warps !=0 && active_warps == stalled_warps) begin timeout_ctr <= timeout_ctr + 1; end else if (active_warps == 0 || active_warps != stalled_warps) begin timeout_ctr <= '0; end end end `RUNTIME_ASSERT(timeout_ctr < `STALL_TIMEOUT, ("%t: *** core%0d-scheduler-timeout: stalled_warps=%b", $time, CORE_ID, stalled_warps)); `ifdef PERF_ENABLE reg [`PERF_CTR_BITS-1:0] perf_sched_idles; reg [`PERF_CTR_BITS-1:0] perf_sched_stalls; wire schedule_idle = ~schedule_valid; wire schedule_stall = schedule_if.valid && ~schedule_if.ready; always @(posedge clk) begin if (reset) begin perf_sched_idles <= '0; perf_sched_stalls <= '0; end else begin perf_sched_idles <= perf_sched_idles + `PERF_CTR_BITS'(schedule_idle); perf_sched_stalls <= perf_sched_stalls + `PERF_CTR_BITS'(schedule_stall); end end assign perf_schedule_if.sched_idles = perf_sched_idles; assign perf_schedule_if.sched_stalls = perf_sched_stalls; `endif endmodule