- DV
- Verify all
flash_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
- Verify all
- FPV
- Verify TileLink device protocol compliance with an SVA based testbench
For detailed information on flash_ctrl
design features, please see the flash_ctrl
HWIP technical specification.
The design-under-test (DUT) wraps the flash_ctrl
IP, flash_phy
and the TLUL SRAM adapter that converts the incoming TL accesses from the from host (CPU) interface into flash requests.
These modules are instantiated and connected to each other and to the rest of the design at the top level.
For the IP level DV, we replicate the instantiations and connections in flash_ctrl_wrapper
module maintained in DV, located at hw/ip/flash_ctrl/dv/tb/flash_ctrl_wrapper.sv
.
In future, we will consider having the wrapper maintained in the RTL area instead.
The flash_ctrl
UVM DV testbench has been constructed based on the CIP testbench architecture.
Top level testbench is located at hw/ip/flash_ctrl/dv/tb/tb.sv
.
It instantiates the flash_ctrl_wrapper
.
In addition, the testbench instantiates the following interfaces, connects them to the DUT and sets their handle into uvm_config_db
:
- Clock and reset interface
- TileLink host interface for the flash controller
- TileLink host interface for the eflash
- TileLink host interface for the prim registers
- Interrupts (
pins_if
- Memory backdoor utility
- Secret key interface from the OTP
- Interface from the life cycle manager
- Interface to the
keymgr
andpwrmgr
The following utilities provide generic helper tasks and functions to perform activities that are common across the project:
flash_ctrl
UVM environment instantiates a (already handled in CIP base env) tl_agent which provides the ability to drive and independently monitor random traffic via TL host interface into flash_ctrl
device.
There are two additional instances of the tl_agent
.
- Host interface to the
flash_phy
, to directly fetch the contents of the flash memory, bypassing theflash_ctrl
. - Host interface to the
prim registers
.
The tl_agent
monitor supplies partial TileLink request packets as well as completed TileLink response packets over the TLM analysis port for further processing within the flash_ctrl
scoreboard.
The flash_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
:
An efficient way to develop test sequences is by providing some random variables that are used to configure the DUT / drive stimulus. The random variables are constrained using weights and knobs that can be controlled. These weights and knobs take on a "default" value that will result in the widest exploration of the design state space, when the test sequence is randomized and run as-is. To steer the randomization towards a particular distribution or to achieve interesting combinations of the random variables, the test sequence can be extended to create a specialized variant. In this extended sequence, nothing would need to be done, other than setting those weights and knobs appropriately. This helps increase the likelihood of hitting the design corners that would otherwise be difficult to achieve, while maximizing reuse.
This object aims to provide such run-time controls.
An example of such a knob is num_en_mp_regions
, which controls how many flash memory protection regions to configure, set to 'all' by default.
The flash_ctrl_env_cfg
, environment configuration object provides access to the following elements:
- Build-time controls to configure the UVM environment composition during the
build_phase
- Downstream agent configuration objects for ease of lookup from any environment component
- This includes the
tl_agent_cfg
objects for both TL interfaces
- This includes the
- All virtual interfaces that connect to the DUT listed above (retrieved from the
uvm_config_db
) - Sequence configuration object described above
All environment components contain a handle to an instance of this class (that was created in the test class via the parent dv_base_test
).
By housing all of the above, all pertinent information is more easily shared with all environment components.
All test sequences reside in hw/ip/flash_ctrl/dv/env/seq_lib
.
The flash_ctrl_base_vseq
virtual sequence is extended from cip_base_vseq
and serves as a starting point.
All test sequences are extended from flash_ctrl_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: From hw/ip/flash_ctrl/dv/env/seq/flash_ctrl_base_vseq.sv
,
- reset_flash Reset flash controller and initialize flash device using back door interface.
- flash_ctrl_start_op Start operation on the flash controller
- flash_ctrl_write
Send data to
prog_fifo
. This task is used forprogram operation
from controller combined withflash_ctrl_start_op
. - flash_ctrl_read
Read data from
rd_fifo
. This task is used forread operation
from controller combined withflash_ctrl_start_op
. - wait_flash_op_done
Polling
op_status
until op_status.done is set. - do_direct_read Task to read flash from the host interface. Transaction size is 4 byte per transaction.
- flash_ctrl_intr_read Task to program flash with interrupt mode.
- flash_ctrl_intr_write Task to read flash with interrupt mode.
- send_rma_req
Task to initiate rma request. Once rma started, task polls
rma ack
until it completes.
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:
hw/ip/flash_ctrl/dv/env/flash_ctrl_env_cov.sv
- control_cg Collects operation types, partition and cross coverage of both.
- erase_susp_cg Check if request of erase suspension occurred.
- msgfifo_level_cg Covers all possible fifo status to generate interrupt for read / program.
- eviction_cg Check whether eviction happens at all 4 caches with write / erase operation. Also check each address belongs to randomly enabled scramble and ecc.
- error_cg Check errors defined in error code registers.
The flash_ctrl_scoreboard
is primarily used for csr transaction integrity.
Test bench also maintains a reference memory model (associative array) per partition.
The reference model is updated on each operation and used for expected partition values at the end of test check.
Given large memory size (mega bytes), maintaining an associative array per operation until the end of the test causes huge simulation overhead.
Also, this model is not suitable for read only test, same address write test, descramble tests and error injection test for ecc.
To address such issues, on-the-fly
method is also used on top of legacy test component.
In on-the-fly
test mode, test does not rely on reference memory mode.
Instead, it creates reference data for each operation.
For the program(write) operation, rtl output is collected from flash phy interface and compared with each operation's pre calculated write data.
For the read operation, the expected data is written via memory backdoor interface, read back, and compared.
The flash_ctrl_otf_scoreboard
is used for on-the-fly
mode flash transaction integrity check, while flash_ctrl_scoreboard
is still used for csr transaction integrity check.
Since there is still uncovered logic within the model before data reaches the actual device, we add extra scoreboard to check that path and call it last mile scoreboard
.
The last mile scoreboard
is added to compensate on-the-fly
model.
For the write transaction, on-the-fly
model collects rtl data at the boundary of the controller and flash model.
- TLUL assertions: The
hw/ip/flash_ctrl/dv/sva/flash_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.
All common types and methods defined at the package level can be found in
flash_ctrl_env_pkg
. Some of them in use are:
** types and enums
// Interrupt enums
typedef enum int {
FlashCtrlIntrProgEmpty = 0,
FlashCtrlIntrProgLvl = 1,
FlashCtrlIntrRdFull = 2,
FlashCtrlIntrRdLvl = 3,
FlashCtrlIntrOpDone = 4,
FlashCtrlIntrErr = 5,
NumFlashCtrlIntr = 6
} flash_ctrl_intr_e;
// Flash initialization mode
typedef enum {
FlashMemInitCustom, // Initialize flash (via bkdr) with custom data set.
FlashMemInitSet, // Initialize with all 1s.
FlashMemInitClear, // Initialize with all 0s.
FlashMemInitRandomize, // Initialize with random data.
FlashMemInitInvalidate, // Initialize with Xs.
FlashMemInitEccMode // Flash init for ecc_mode
} flash_mem_init_e;
// Ecc test mode
typedef enum {
FlashEccDisabled, // No ecc enable
FlashEccEnabled, // Ecc enable but no error injection
FlashSerrTestMode, // Ecc enable and single bit error injection
FlashDerrTestMode, // Ecc enable and double bit error injection
FlashIerrTestMode // Ecc enable and integrity error injection
} ecc_mode_e;
// 4-states flash data type
typedef logic [TL_DW-1:0] data_4s_t;
// flash address type
typedef bit [TL_AW-1:0] addr_t;
// Queue of 4-states data words
typedef data_4s_t data_q_t[$];
// Flash op struct
typedef struct packed {
flash_dv_part_e partition; // data or one of the info partitions
flash_erase_e erase_type; // erase page or the whole bank
flash_op_e op; // read / program or erase
flash_prog_sel_e prog_sel; // program select
uint num_words; // number of words to read or program (TL_DW)
addr_t addr; // starting addr for the op
// addres for the ctrl interface per bank, 18:0
bit [flash_ctrl_pkg::BusAddrByteW-2:0] otf_addr;
} flash_op_t;
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:
$ cd $REPO_TOP
$ ./util/dvsim/dvsim.py hw/ip/flash_ctrl/dv/flash_ctrl_sim_cfg.hjson -i flash_ctrl_smoke