- DV
- Verify all LC_CTRL IP features by running dynamic simulations with a SV/UVM based testbench
- Develop and run all tests based on the 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
For detailed information on LC_CTRL design features, please see the LC_CTRL HWIP technical specification.
LC_CTRL testbench has been constructed based on the CIP testbench architecture.
Top level testbench is located at hw/ip/lc_ctrl/dv/tb/tb.sv
. It instantiates the LC_CTRL DUT module hw/ip/lc_ctrl/rtl/lc_ctrl.sv
.
In addition, it instantiates the following interfaces, connects them to the DUT and sets their handle into uvm_config_db
:
- Clock and reset interface
- TileLink host interface
- LC_CTRL IOs
- Interrupts (
pins_if
) - Alerts (
alert_esc_if
)
The following utilities provide generic helper tasks and functions to perform activities that are common across the project:
[list compile time configurations, if any and what are they used for]
All common types and methods defined at the package level can be found in
lc_ctrl_env_pkg
.
LC_CTRL testbench instantiates (already handled in CIP base env) tl_agent which provides the ability to drive and independently monitor random traffic via TL host interface into LC_CTRL device.
jtag_riscv_agent is used to read and write LC_CTRL registers via the JTAG interface. It contains an embedded instance of [jtag_agent] ../../../dv/sv/jtag_agent/README.md which uses the jtag_if interface in the testbench.
push_pull_agent is used to emulate the Token and OTP programming interfaces.
The LC_CTRL RAL model is created with the ralgen
FuseSoC generator script automatically when the simulation is at the build stage.
It can be created manually by invoking regtool
:
All test sequences reside in hw/ip/lc_ctrl/dv/env/seq_lib
.
The lc_ctrl_base_vseq
virtual sequence is extended from cip_base_vseq
and serves as a starting point.
All test sequences are extended from lc_ctrl_base_vseq
.
It provides commonly used handles, variables, functions and tasks that the test sequences can simple use / call.
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:
- err_inj_cg: indicates what error conditions have been injected.
The lc_ctrl_scoreboard
is primarily used for end to end checking.
It creates the following analysis exports to retrieve the data monitored by corresponding interface agents:
- tl_[a_chan, d_chan, dir]_fifo_lc_ctrl_reg_block.analysis_export: TileLink CSR reads/writes.
- jtag_riscv_fifo.analysis_export: JTAG CSR reads/writes
- alert_fifo[fatal_bus_integ_error, fatal_prog_error, fatal_state_error].analysis_export: Alert traffic from DUT
- otp_prog_fifo.analysis_export: OTP program data from LC_CTRL and response to LC_CTRL.
- otp_token_fifo.analysis_export: OTP token data from LC_CTRL and response to LC_CTRL.
- TL CSR data is used to check against expected values predicted by the scoreboard. It also updates the UVM register model.
- JTAG CSR data is used to check against expected values predicted by the scoreboard. It also updates the UVM register model.
- Alert data is decoded and used to indicate an alert has occurred
- TLUL assertions: The
tb/lc_ctrl_bind.sv
binds thetlul_assert
assertions 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.
We are using our in-house developed regression tool 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 smoke test for the LC_CTRL variant with volatile RAW unlock disabled:
$ $REPO_TOP/util/dvsim/dvsim.py $REPO_TOP/hw/ip/lc_ctrl/dv/lc_ctrl_volatile_unlock_disabled_sim.hjson -i lc_ctrl_smoke