// © IBM Corp. 2022 // Licensed under the Apache License, Version 2.0 (the "License"), as modified by the terms below; you may not use the files in this // repository except in compliance with the License as modified. // You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 // // Modified Terms: // // 1) For the purpose of the patent license granted to you in Section 3 of the License, the "Work" hereby includes implementations of // the work of authorship in physical form. // // Unless required by applicable law or agreed to in writing, the reference design 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. // // Brief explanation of modifications: // // Modification 1: This modification extends the patent license to an implementation of the Work in physical form – i.e., // it unambiguously permits a user to make and use the physical chip. // Behavioral for 16x12 toysram subarray `timescale 1 ps / 1 ps module toysram_16x12 ( input [0:15] RWL0, input [0:15] RWL1, input [0:15] WWL, output [0:11] RBL0, output [0:11] RBL1, input [0:11] WBL, input [0:11] WBLb ); reg [0:11] mem_00; reg [0:11] mem_01; reg [0:11] mem_02; reg [0:11] mem_03; reg [0:11] mem_04; reg [0:11] mem_05; reg [0:11] mem_06; reg [0:11] mem_07; reg [0:11] mem_08; reg [0:11] mem_09; reg [0:11] mem_10; reg [0:11] mem_11; reg [0:11] mem_12; reg [0:11] mem_13; reg [0:11] mem_14; reg [0:11] mem_15; // word-select // the bits are negative-active at this point // the cell outputs 0 if stored '1' AND RWLx; RBLx[0:11] are dot-AND'ed assign RBL0 = ~(mem_00 & {12{RWL0[0]}}) & ~(mem_01 & {12{RWL0[1]}}) & ~(mem_02 & {12{RWL0[2]}}) & ~(mem_03 & {12{RWL0[3]}}) & ~(mem_04 & {12{RWL0[4]}}) & ~(mem_05 & {12{RWL0[5]}}) & ~(mem_06 & {12{RWL0[6]}}) & ~(mem_07 & {12{RWL0[7]}}) & ~(mem_08 & {12{RWL0[8]}}) & ~(mem_09 & {12{RWL0[9]}}) & ~(mem_10 & {12{RWL0[10]}}) & ~(mem_11 & {12{RWL0[11]}}) & ~(mem_12 & {12{RWL0[12]}}) & ~(mem_13 & {12{RWL0[13]}}) & ~(mem_14 & {12{RWL0[14]}}) & ~(mem_15 & {12{RWL0[15]}}); assign RBL1 = ~(mem_00 & {12{RWL1[0]}}) & ~(mem_01 & {12{RWL1[1]}}) & ~(mem_02 & {12{RWL1[2]}}) & ~(mem_03 & {12{RWL1[3]}}) & ~(mem_04 & {12{RWL1[4]}}) & ~(mem_05 & {12{RWL1[5]}}) & ~(mem_06 & {12{RWL1[6]}}) & ~(mem_07 & {12{RWL1[7]}}) & ~(mem_08 & {12{RWL1[8]}}) & ~(mem_09 & {12{RWL1[9]}}) & ~(mem_10 & {12{RWL1[10]}}) & ~(mem_11 & {12{RWL1[11]}}) & ~(mem_12 & {12{RWL1[12]}}) & ~(mem_13 & {12{RWL1[13]}}) & ~(mem_14 & {12{RWL1[14]}}) & ~(mem_15 & {12{RWL1[15]}}); always @(posedge WWL[0]) begin mem_00 <= ~WBLb; end always @(posedge WWL[1]) begin mem_01 <= ~WBLb; end always @(posedge WWL[2]) begin mem_02 <= ~WBLb; end always @(posedge WWL[3]) begin mem_03 <= ~WBLb; end always @(posedge WWL[4]) begin mem_04 <= ~WBLb; end always @(posedge WWL[5]) begin mem_05 <= ~WBLb; end always @(posedge WWL[6]) begin mem_06 <= ~WBLb; end always @(posedge WWL[7]) begin mem_07 <= ~WBLb; end always @(posedge WWL[8]) begin mem_08 <= ~WBLb; end always @(posedge WWL[9]) begin mem_09 <= ~WBLb; end always @(posedge WWL[10]) begin mem_10 <= ~WBLb; end always @(posedge WWL[11]) begin mem_11 <= ~WBLb; end always @(posedge WWL[12]) begin mem_12 <= ~WBLb; end always @(posedge WWL[13]) begin mem_13 <= ~WBLb; end always @(posedge WWL[14]) begin mem_14 <= ~WBLb; end always @(posedge WWL[15]) begin mem_15 <= ~WBLb; end // assert errors (multiwrite, etc.) endmodule