| <!-- Copy this file to hw/ip/foo/doc/foo_dv_plan.md and make changes as needed. |
| For convenience 'foo' in the document can be searched and replaced easily with the |
| desired IP (with case sensitivity!). Also, use the testbench block diagram here: |
| https://drive.google.com/open?id=1LfnTSutIW5E6zSCOCf4-scS8MQ8lXhPAPgSfFx2Aqh0 |
| as a starting point and modify it to reflect your foo testbench and save it |
| to hw/ip/foo/doc/tb.svg. It should get linked and rendered under the block |
| diagram section below. Please update / modify / remove sections below as |
| applicable. Once done, remove this comment before making a PR. --> |
| |
| {{% lowrisc-doc-hdr FOO DV Plan }} |
| <!-- TODO: uncomment the line below after adding the testplan --> |
| <!-- {{% import_testplan ../data/foo_testplan.hjson }} --> |
| |
| {{% toc 4 }} |
| |
| ## Goals |
| * **DV** |
| * Verify all FOO IP features by running dynamic simulations with a SV/UVM based testbench |
| * Develop and run all tests based on the [testplan](#testplan) below towards closing code and functional coverage on the IP and all of its sub-modules |
| * **FPV** |
| * Verify TileLink device protocol compliance with an SVA based testbench |
| |
| ## Current status |
| * [Design & verification stage](../../../../doc/project/hw_dashboard.md) |
| * [HW development stages](../../../../doc/ug/hw_stages.md) |
| * DV regression results dashboard (link TBD) |
| |
| ## Design features |
| For detailed information on FOO design features, please see the [FOO design specification](foo.md). |
| |
| ## Testbench architecture |
| FOO testbench has been constructed based on the [CIP testbench architecture](../../../dv/sv/cip_lib/README.md). |
| |
| ### Block diagram |
|  |
| |
| ### Top level testbench |
| Top level testbench is located at `hw/ip/foo/dv/tb/tb.sv`. It instantiates the FOO DUT module `hw/ip/foo/rtl/foo.sv`. |
| In addition, it instantiates the following interfaces and sets their handle into `uvm_config_db`: |
| * [Clock and reset interface](../../../dv/sv/common_ifs/README.md) |
| * [TileLink host interface](../../../dv/sv/tl_agent/README.md) |
| * FOO IOs |
| * Interrupts ([`pins_if`](../../../dv/sv/common_ifs/README.md)) |
| * Alerts ([`pins_if`](../../../dv/sv/common_ifs/README.md)) |
| * Devmode ([`pins_if`](../../../dv/sv/common_ifs/README.md)) |
| |
| ### Common DV utility components |
| The following utilities provide generic helper tasks and functions to perform activities that are common across the project: |
| * [dv_utils_pkg](../../../dv/sv/dv_utils/README.md) |
| * [csr_utils_pkg](../../../dv/sv/csr_utils/README.md) |
| |
| ### Compile-time configurations |
| [list compile time configurations, if any and what are they used for] |
| |
| ### Global types & methods |
| All common types and methods defined at the package level can be found in |
| `foo_env_pkg`. Some of them in use are: |
| ```systemverilog |
| [list a few parameters, types & methods; no need to mention all] |
| ``` |
| ### TL_agent |
| FOO testbench instantiates (already handled in CIP base env) [tl_agent](../../../dv/sv/tl_agent/README.md) |
| which provides the ability to drive and independently monitor random traffic via |
| TL host interface into FOO device. |
| |
| ### UVC/agent 1 |
| [Describe here or add link to its README] |
| |
| ### UVC/agent 2 |
| [Describe here or add link to its README] |
| |
| ### RAL |
| The FOO RAL model is constructed using the [regtool.py script](../../../../util/reggen/README.md) and is placed at `env/foo_reg_block.sv`. |
| |
| ### Reference models |
| [Describe reference models in use if applicable, example: SHA256/HMAC] |
| |
| ### Stimulus strategy |
| #### Test sequences |
| All test sequences reside in `hw/ip/foo/dv/env/seq_lib`. |
| The `foo_base_vseq` virtual sequence is extended from `cip_base_vseq` and serves as a starting point. |
| All test sequences are extended from `foo_base_vseq`. |
| It provides commonly used handles, variables, functions and tasks that the test sequences can simple use / call. |
| Some of the most commonly used tasks / functions are as follows: |
| * task 1: |
| * task 2: |
| |
| #### Functional coverage |
| To ensure high quality constrained random stimulus, it is necessary to develop a functional coverage model. |
| The following covergroups have been developed to prove that the test intent has been adequately met: |
| * cg1: |
| * cg2: |
| |
| ### Self-checking strategy |
| #### Scoreboard |
| The `foo_scoreboard` is primarily used for end to end checking. |
| It creates the following analysis ports to retrieve the data monitored by corresponding interface agents: |
| * analysis port1: |
| * analysis port2: |
| <!-- explain inputs monitored, flow of data and outputs checked --> |
| |
| #### Assertions |
| * TLUL assertions: The `tb/foo_bind.sv` binds the `tlul_assert` [assertions](../../tlul/doc/TlulProtocolChecker.md) to the IP to ensure TileLink interface protocol compliance. |
| * Unknown checks on DUT outputs: The RTL has assertions to ensure all outputs are initialized to known values after coming out of reset. |
| * assert prop 1: |
| * assert prop 2: |
| |
| ## Building and running tests |
| We are using our in-house developed [regression tool](../../../dv/tools/README.md) for building and running our tests and regressions. |
| Please take a look at the link for detailed information on the usage, capabilities, features and known issues. |
| Here's how to run a basic sanity test: |
| ```console |
| $ cd hw/ip/foo/dv |
| $ make TEST_NAME=foo_sanity |
| ``` |
| |
| ## Testplan |
| <!-- TODO: uncomment the line below after adding the testplan --> |
| <!-- {{% insert_testplan x }} --> |
