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[/] [yifive/] [trunk/] [caravel_yifive/] [verilog/] [dv/] [la_test1/] [la_test1.c] - Rev 22
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/* * SPDX-FileCopyrightText: 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 */ // This include is relative to $CARAVEL_PATH (see Makefile) #include "verilog/dv/caravel/defs.h" #include "verilog/dv/caravel/stub.c" // -------------------------------------------------------- /* MPRJ Logic Analyzer Test: - Observes counter value through LA probes [31:0] - Sets counter initial value through LA probes [63:32] - Flags when counter value exceeds 500 through the management SoC gpio - Outputs message to the UART when the test concludes successfuly */ void main() { /* Set up the housekeeping SPI to be connected internally so */ /* that external pin changes don't affect it. */ reg_spimaster_config = 0xa002; // Enable, prescaler = 2, // connect to housekeeping SPI // Connect the housekeeping SPI to the SPI master // so that the CSB line is not left floating. This allows // all of the GPIO pins to be used for user functions. // The upper GPIO pins are configured to be output // and accessble to the management SoC. // Used to flad the start/end of a test // The lower GPIO pins are configured to be output // and accessible to the user project. They show // the project count value, although this test is // designed to read the project count through the // logic analyzer probes. // I/O 6 is configured for the UART Tx line reg_mprj_io_31 = GPIO_MODE_MGMT_STD_OUTPUT; reg_mprj_io_30 = GPIO_MODE_MGMT_STD_OUTPUT; reg_mprj_io_29 = GPIO_MODE_MGMT_STD_OUTPUT; reg_mprj_io_28 = GPIO_MODE_MGMT_STD_OUTPUT; reg_mprj_io_27 = GPIO_MODE_MGMT_STD_OUTPUT; reg_mprj_io_26 = GPIO_MODE_MGMT_STD_OUTPUT; reg_mprj_io_25 = GPIO_MODE_MGMT_STD_OUTPUT; reg_mprj_io_24 = GPIO_MODE_MGMT_STD_OUTPUT; reg_mprj_io_23 = GPIO_MODE_MGMT_STD_OUTPUT; reg_mprj_io_22 = GPIO_MODE_MGMT_STD_OUTPUT; reg_mprj_io_21 = GPIO_MODE_MGMT_STD_OUTPUT; reg_mprj_io_20 = GPIO_MODE_MGMT_STD_OUTPUT; reg_mprj_io_19 = GPIO_MODE_MGMT_STD_OUTPUT; reg_mprj_io_18 = GPIO_MODE_MGMT_STD_OUTPUT; reg_mprj_io_17 = GPIO_MODE_MGMT_STD_OUTPUT; reg_mprj_io_16 = GPIO_MODE_MGMT_STD_OUTPUT; reg_mprj_io_15 = GPIO_MODE_USER_STD_OUTPUT; reg_mprj_io_14 = GPIO_MODE_USER_STD_OUTPUT; reg_mprj_io_13 = GPIO_MODE_USER_STD_OUTPUT; reg_mprj_io_12 = GPIO_MODE_USER_STD_OUTPUT; reg_mprj_io_11 = GPIO_MODE_USER_STD_OUTPUT; reg_mprj_io_10 = GPIO_MODE_USER_STD_OUTPUT; reg_mprj_io_9 = GPIO_MODE_USER_STD_OUTPUT; reg_mprj_io_8 = GPIO_MODE_USER_STD_OUTPUT; reg_mprj_io_7 = GPIO_MODE_USER_STD_OUTPUT; reg_mprj_io_5 = GPIO_MODE_USER_STD_OUTPUT; reg_mprj_io_4 = GPIO_MODE_USER_STD_OUTPUT; reg_mprj_io_3 = GPIO_MODE_USER_STD_OUTPUT; reg_mprj_io_2 = GPIO_MODE_USER_STD_OUTPUT; reg_mprj_io_1 = GPIO_MODE_USER_STD_OUTPUT; reg_mprj_io_0 = GPIO_MODE_USER_STD_OUTPUT; reg_mprj_io_6 = GPIO_MODE_MGMT_STD_OUTPUT; // Set UART clock to 64 kbaud (enable before I/O configuration) reg_uart_clkdiv = 625; reg_uart_enable = 1; /* Apply configuration */ reg_mprj_xfer = 1; while (reg_mprj_xfer == 1); // Configure LA probes [31:0], [127:64] as inputs to the cpu // Configure LA probes [63:32] as outputs from the cpu reg_la0_oenb = reg_la0_iena = 0xFFFFFFFF; // [31:0] reg_la1_oenb = reg_la1_iena = 0x00000000; // [63:32] reg_la2_oenb = reg_la2_iena = 0xFFFFFFFF; // [95:64] reg_la3_oenb = reg_la3_iena = 0xFFFFFFFF; // [127:96] // Flag start of the test reg_mprj_datal = 0xAB400000; // Set Counter value to zero through LA probes [63:32] reg_la1_data = 0x00000000; // Configure LA probes from [63:32] as inputs to disable counter write reg_la1_oenb = reg_la1_iena = 0xFFFFFFFF; while (1) { if (reg_la0_data > 0x1F4) { reg_mprj_datal = 0xAB410000; break; } } print("\n"); print("Monitor: Test 2 Passed\n\n"); // Makes simulation very long! reg_mprj_datal = 0xAB510000; }
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