| // Copyright 2020 Efabless Corporation |
| // |
| // 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. |
| // SPDX-License-Identifier: Apache-2.0 |
| |
| `default_nettype none |
| // (True) digital PLL |
| // |
| // Output goes to a trimmable ring oscillator (see documentation). |
| // Ring oscillator should be trimmable to above and below maximum |
| // ranges of the input. |
| // |
| // Input "osc" comes from a fixed clock source (e.g., crystal oscillator |
| // output). |
| // |
| // Input "div" is the target number of clock cycles per oscillator cycle. |
| // e.g., if div == 8 then this is an 8X PLL. |
| // |
| // Clock "clock" is the PLL output being trimmed. |
| // (NOTE: To be done: Pass-through enable) |
| // |
| // Algorithm: |
| // |
| // 1) Trim is done by thermometer code. Reset to the highest value |
| // in case the fastest rate clock is too fast for the logic. |
| // |
| // 2) Count the number of contiguous 1s and 0s in "osc" |
| // periods of the master clock. If the count maxes out, it does |
| // not roll over. |
| // |
| // 3) Add the two counts together. |
| // |
| // 4) If the sum is less than div, then the clock is too slow, so |
| // decrease the trim code. If the sum is greater than div, the |
| // clock is too fast, so increase the trim code. If the sum |
| // is equal to div, the the trim code does not change. |
| // |
| |
| module digital_pll_controller(reset, clock, osc, div, trim); |
| input reset; |
| input clock; |
| input osc; |
| input [4:0] div; |
| output [25:0] trim; // Use ring_osc2x13, with 26 trim bits |
| |
| wire [25:0] trim; |
| reg [2:0] oscbuf; |
| reg [2:0] prep; |
| |
| reg [4:0] count0; |
| reg [4:0] count1; |
| reg [6:0] tval; // Includes 2 bits fractional |
| wire [4:0] tint; // Integer part of the above |
| |
| wire [5:0] sum; |
| |
| assign sum = count0 + count1; |
| |
| // Integer to thermometer code (maybe there's an algorithmic way?) |
| assign tint = tval[6:2]; |
| // |<--second-->|<-- first-->| |
| assign trim = (tint == 5'd0) ? 26'b0000000000000_0000000000000 : |
| (tint == 5'd1) ? 26'b0000000000000_0000000000001 : |
| (tint == 5'd2) ? 26'b0000000000000_0000001000001 : |
| (tint == 5'd3) ? 26'b0000000000000_0010001000001 : |
| (tint == 5'd4) ? 26'b0000000000000_0010001001001 : |
| (tint == 5'd5) ? 26'b0000000000000_0010101001001 : |
| (tint == 5'd6) ? 26'b0000000000000_1010101001001 : |
| (tint == 5'd7) ? 26'b0000000000000_1010101101001 : |
| (tint == 5'd8) ? 26'b0000000000000_1010101101101 : |
| (tint == 5'd9) ? 26'b0000000000000_1011101101101 : |
| (tint == 5'd10) ? 26'b0000000000000_1011101111101 : |
| (tint == 5'd11) ? 26'b0000000000000_1111101111101 : |
| (tint == 5'd12) ? 26'b0000000000000_1111101111111 : |
| (tint == 5'd13) ? 26'b0000000000000_1111111111111 : |
| (tint == 5'd14) ? 26'b0000000000001_1111111111111 : |
| (tint == 5'd15) ? 26'b0000001000001_1111111111111 : |
| (tint == 5'd16) ? 26'b0010001000001_1111111111111 : |
| (tint == 5'd17) ? 26'b0010001001001_1111111111111 : |
| (tint == 5'd18) ? 26'b0010101001001_1111111111111 : |
| (tint == 5'd19) ? 26'b1010101001001_1111111111111 : |
| (tint == 5'd20) ? 26'b1010101101001_1111111111111 : |
| (tint == 5'd21) ? 26'b1010101101101_1111111111111 : |
| (tint == 5'd22) ? 26'b1011101101101_1111111111111 : |
| (tint == 5'd23) ? 26'b1011101111101_1111111111111 : |
| (tint == 5'd24) ? 26'b1111101111101_1111111111111 : |
| (tint == 5'd25) ? 26'b1111101111111_1111111111111 : |
| 26'b1111111111111_1111111111111; |
| |
| always @(posedge clock or posedge reset) begin |
| if (reset == 1'b1) begin |
| tval <= 7'd0; // Note: trim[0] must be zero for startup to work. |
| oscbuf <= 3'd0; |
| prep <= 3'd0; |
| count0 <= 5'd0; |
| count1 <= 5'd0; |
| |
| end else begin |
| oscbuf <= {oscbuf[1:0], osc}; |
| |
| if (oscbuf[2] != oscbuf[1]) begin |
| count1 <= count0; |
| count0 <= 5'b00001; |
| prep <= {prep[1:0], 1'b1}; |
| |
| if (prep == 3'b111) begin |
| if (sum > div) begin |
| if (tval < 127) begin |
| tval <= tval + 1; |
| end |
| end else if (sum < div) begin |
| if (tval > 0) begin |
| tval <= tval - 1; |
| end |
| end |
| end |
| end else begin |
| if (count0 != 5'b11111) begin |
| count0 <= count0 + 1; |
| end |
| end |
| end |
| end |
| |
| endmodule // digital_pll_controller |
| `default_nettype wire |