Patent application number | Description | Published |
20090024873 | System and Method for Increasing Error Checking Performance by Calculating CRC Calculations After Multiple Test Patterns for Processor Design Verification and Validation - A system and method to reduce verification time by sharing memory between multiple test patterns and performing results checking after each test pattern executes one time is presented. A test pattern generator generates multiple test pattern sets, each of which including multiple test patterns. Each test pattern set is executed by a corresponding thread/processor until each test pattern included in the test pattern set has executed at least once. After all test patterns have executed at least once, a test pattern executor performs a memory error detection check to determine whether the system is functioning correctly. Since the invention described herein waits until all test patterns have executed before performing a memory error detection check, less time is spent on memory error detection checks, which allows more time to execute test patterns. | 01-22-2009 |
20090024876 | System and Method for Verification of Cache Snoop Logic and Coherency Between Instruction & Data Caches for Processor Design Verification and Validation - A system and method for verifying cache snoop logic and coherency between instruction cache and data cache using instruction stream “holes” that are created by branch instructions is presented. A test pattern generator includes instructions that load/store data into instruction stream holes. In turn, by executing the test pattern, a processor thread loads an L2 cache line into both instruction cache (icache) and data cache (dcache). The test pattern modifies the data in the dcache in response to a store instruction. In turn, the invention described herein identifies whether snoop logic detects the change and updates the icache's corresponding cache line accordingly. | 01-22-2009 |
20090024877 | System and Method for Creating Different Start Cache and Bus States Using Multiple Test Patterns for Processor Design Verification and Validation - A system and method for creating different start cache and bus states using multiple test patterns for processor design verification and validation is presented. A test pattern generator/tester re-uses test patterns in different configurations that alter cache states and translation lookaside buffer (TLB) states, which produces different timing scenarios on a broadband bus. The test pattern generator/tester creates multiple test patterns for a multi-processor system and executes the test patterns repeatedly in different configurations without rebuilding the test patterns. This enables a system to dedicate more time executing the test patterns instead of building the test patterns. By repeatedly executing the same test patterns in a different configuration, the invention described herein produces different start cache states, different TLB states, along with other processor units, each time the test patterns execute that, in turn, changes the bus timing. | 01-22-2009 |
20090024891 | System and Method for Pseudo-Random Test Pattern Memory Allocation for Processor Design Verification and Validation - A system and method for pseudo-randomly allocating page table memory for test pattern instructions to produce complex test scenarios during processor execution is presented. The invention described herein distributes page table memory across processors and across multiple test patterns, such as when a processor executes “n” test patterns. In addition, the page table memory is allocated using a “true” sharing mode or a “false” sharing mode. The false sharing mode provides flexibility of performing error detection checks on the test pattern results. In addition, since a processor comprises sub units such as a cache, a TLB (translation look aside buffer), an SLB (segment look aside buffer), an MMU (memory management unit), and data/instruction pre-fetch engines, the test patterns effectively use the page table memory to test each of the sub units. | 01-22-2009 |
20090070532 | System and Method for Efficiently Testing Cache Congruence Classes During Processor Design Verification and Validation - A system and method for using a single test case to test each sector within multiple congruence classes is presented. A test case generator builds a test case for accessing each sector within a congruence class. Since a congruence class spans multiple congruence pages, the test case generator builds the test case over multiple congruence pages in order for the test case to test the entire congruence class. During design verification and validation, a test case executor modifies a congruence class identifier (e.g., patches a base register), which forces the test case to test a specific congruence class. By incrementing the congruence class identifier after each execution of the test case, the test case executor is able to test each congruence class in the cache using a single test case. | 03-12-2009 |
20090070546 | System and Method for Generating Fast Instruction and Data Interrupts for Processor Design Verification and Validation - A system and method for intentionally invaliding translation entry valid bits in order to provoke storage interrupts when executing a test case is presented. Prior to executing the test case, an interrupt handler pseudo-randomly invalidates a number of translation entries included in a translation lookaside buffer (TLB) by changing particular valid bits in order to provoke initial storage interrupts, such as an instruction storage interrupt (ISI) or a data storage interrupt (DSI). Once the processor executes the test case that, in turn, triggers a storage interrupt, the interrupt handler uses an index counter to validate particular valid bits and invalidate other valid bits, thus provoking subsequent storage interrupts. In one embodiment, the interrupt handler also changes valid bits in a page table when the processor executes in a mode that accesses the page table in addition to the TLB. | 03-12-2009 |
20090070570 | System and Method for Efficiently Handling Interrupts - A system and method for including independent instructions into a test case for intentionally provoking interrupts that may be used in conjunction with an instruction shuffling process is presented. A test case generator builds a test case that includes intentional interrupt instructions, which are constructed to intentionally provoke an interrupt, such as an instruction storage interrupt (ISI), a data storage interrupt (DSI), and alignment interrupt, and/or a program interrupt (PI). When a processor executes the test case and invokes an interrupt to an interrupt handler, the interrupt handler does not resolve the interrupt, but rather increments an instruction address register or a link register and resumes test case execution at an instruction subsequent to the instruction that caused the interrupt. | 03-12-2009 |
20090070629 | System and Method for Testing Multiple Processor Modes for Processor Design Verification and Validation - A system and method for generating a test case and a bit mask that allows a test case executor the ability to re-execute the test case multiple times using different machine state register bit sets. A test case generator creates a bit mask based upon identified invariant bits and semi-invariant bits. The test case generator includes compensation values corresponding to the semi-invariant bits into a test case, and provides the test case, along with the bit mask, to a test case executor. In turn, the test case executor dispatches the test case multiple times, each time with a different machine state register bit set, to a processor. Each of the machine state register bit sets places the processor in different modes. | 03-12-2009 |
20090070631 | System and Method for Re-Shuffling Test Case Instruction Orders for Processor Design Verification and Validation - A system and method for creating multiple test case scenarios from one test case by shuffling the test case instruction order while maintaining relative sub test case instruction order intact is presented. A test case generator generates and provides a test case that includes multiple sub test cases to a test case executor. In turn, the test case executor recursively schedules and dispatches the test case with different shuffled instruction orders to a processor in order to efficiently test the processor. In one embodiment, the test case generator provides multiple test cases to the test case executor. In another embodiment, the test case generator provides test cases to multiple test case executors that, in turn, shuffle the test cases and provide the shuffled test cases to their respective processor. | 03-12-2009 |
20090070643 | System and Method for Testing a Large Memory Area During Processor Design Verification and Validation - A system and method for replicating a memory block throughout a main memory and modifying real addresses within an address translation buffer to reference the replicated memory blocks during test case set re-executions in order to fully test the main memory is presented. A test case generator generates a test case set (multiple test cases) along with an initial address translation buffer that includes real addresses that reference an initial memory block. A test case executor modifies the real addresses after each test case set re-execution in order for a processor to test each replicated memory block included in the main memory. | 03-12-2009 |
20090070768 | System and Method for Using Resource Pools and Instruction Pools for Processor Design Verification and Validation - A system and method for using resource pools and instruction pools for processor design verification and validation is presented. A test case generator organizes processor resources into resource pools using a resource pool mask. Next, the test case generator separates instructions into instruction pools based upon the resources that each instruction requires. The test case generator then creates a test case using one or more sub test cases by assigning a resource pool to each sub test case, identifying instruction pools that correspond the assigned test case, and building each sub test case using instructions included in the identified instruction pools. | 03-12-2009 |
20090307468 | Generating a Test Case Micro Generator During Processor Design Verification and Validation - A main generator generates a micro generator and initial test cases based upon a processor architecture specifications and user input, such as general purpose register availability, translation information, instruction sequences, base register available, target real memory pages, etc. In turn, the micro generator tests a processor using the initial test cases and subsequent test cases generated by the micro generator. The subsequent test cases may include modified test case properties such as changed machine state register bits, changed instruction sequence (shuffling), changed effective segment ID bits, and/or changed virtual segment ID bits. In addition to generating subsequent test cases, the micro generator performs functions such as test case dispatching, test case scheduling, test case execution, and interrupt handling. | 12-10-2009 |