Channel handshake delay, Axi3 bfm handshake delay, Axi3 bfm handshake signal delay transaction fields – Altera Mentor Verification IP Altera Edition AMBA AXI3/4TM User Manual

VHDL API Overview

Operational Transaction Fields

Mentor VIP AE AXI3/4 User Guide, V10.2b

199

September 2013

You can configure this behavior to be nonblocking by setting the operation_mode transaction
field to the enumerate type value **_TRANSACTION_NON_BLOCKING instead of the default
**_TRANSACTION_BLOCKING.

For example, in a master BFM test program you create a transaction by calling the

create_read_transaction()

or

create_write_transaction()

tasks which creates a transaction

record. Before executing the transaction record the operation_mode can be changed as follows:

-- * = axi| axi4
-- ** = AXI | AXI4
-- Create a write transaction to create a transaction record
create_write_transaction(1, tr_id, bfm_index, *_tr_if_0(bfm_index));

-- Change operation_mode to be nonblocking in the transaction record
set_operation_mode(**_TRANSACTION_NON_BLOCKING, tr_id, bfm_index,

*_tr_if_0(bfm_index));

In the above example, the bfm_index specifies the BFM.

Channel Handshake Delay

Each of the five protocol channels have *VALID and *READY handshake signals to control the
rate at which information is transferred between a master and slave. The API to control these
handshake signals differs between the AXI3 BFMs and AXI4 BFMs. Refer to the

AXI3 BFM

Handshake Delay

and

AXI3 BFM Delay Mode

for details of the AXI3 BFM API, and

AXI3

BFM Handshake Delay

for details of the AXI4 BFM API.

AXI3 BFM Handshake Delay

The delay between the *VALID and *READY handshake signals for each of the five protocol
channels can be configured. The delay can be defined per phase (beat) basis for a particular
transaction, measured from the positive edge of ACLK when *VALID is asserted. The delay can
also be set from the completion of a previous transaction phase (*VALID and *READY both
asserted).

AXI3 BFM Handshake Signal Delay Transaction Fields

There are transaction fields to configure the desired handshake delay pattern for a particular
transaction phase on any of the five protocol channels. The master BFM configures the *VALID
and *READY signal delays that it asserts, and the slave BFM configures the *VALID and
*READY signal delays that it asserts.

Table 7-2

below specifies which operational delay

transaction fields are configured by the master and slave BFMs.

Table 7-2. Handshake Signal Delay Transaction Fields

Signal

Operational Transaction Field

Configuration BFM

AWVALID

address_valid_delay

Master

AWREADY

address_ready_delay

Slave