Abstract
This article presents an approach used to verify communication controllers developed for Systems on Chip (SOC) at MCST. We provide a list of communication controllers developed in MCST and present their characteristics. We describe principles of communication controller’s operation on transaction, data link and physical layers and highlight their similarities. Then we describe a common method of device verification: principles of test system design, constrained random test stimuli generation and checking of device behavior. Based on common features of the controllers, we provide the general design of their test system. It includes components to work with transaction level interface (system agent of system on chip communication protocol) and physical interface (physical agent of protocol for SOC communication on a single board), configuration agent that determines device mode of operation and a scoreboard. Because controllers only execute transformation of transactions between different representation, scoreboard checks accordance of in and outgoing transactions. In addition, we describe specific features of devices that require the adjustments to the common approach. We describe how verification of those features affected the design of different test systems. We explain how a replacement of a physical agent with a second communication controller allows to speed up the development of test systems. We explain challenges of link training and status state machine (LTSSM) verification. We provide a way to work with devices with direct memory access (DMA) in a system agent. In conclusion, we present a list of found errors and directions of further research.
Highlights
Modern systems on chip (SOC) may include multiple microprocessor cores, complex hierarchy of caches, peripheral controllers and other types of data processing modules
The task of interconnection between different systems on chip is solved by communication controller (CC) modules
4.2 Test systems based on a pair of controllers To verify implementations of in-house communication protocols (IPCC and Wide Link Communication Controller (WLCC)) additional type of test system was used [7]
Summary
Modern systems on chip (SOC) may include multiple microprocessor cores, complex hierarchy of caches, peripheral controllers and other types of data processing modules. Those modules solve the problem of Petrochenkov M.V., Mushtakov R.E., Shpagilev D.I. Verification of System on Chip Integrated Communication Controllers. Model of the device under verification (DUT) is included in a special program – a test system, which goal is to ensure that DUT satisfies all requirements. This article describes a problem of stand-alone verification of communication controllers with physical media access interfaces in the industrial setting.
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