Up to 53% of the time spent on testing current Intel microprocessors is needed to test on-chip caches, due to the high complexity of memory tests and to the large amount of transistors dedicated to such memories. This paper discusses the methodology used to develop effective and efficient cache tests, and the way it is implemented to optimize the test set used at Intel to test their 512-kB caches manufactured in a 0.13- mtechnology. An example is shown where a maximal test set of 15 tests with a corresponding maximum test time of 160.942 ms/chip is optimized to only six tests that require a test time of only 30.498 ms/chip.Microelectronics & Computer EngineeringElectrical Engineering, Mathematics and Computer Scienc
The increasing use of microprocessor cores in embedded systems, as well as mobile and portable devic...
International audienceAutomotive embedded systems have an increasing need for computing power. To ad...
The increasing use of microprocessor cores in embedded systems as well as mobile and portable device...
Up to 53% of the time spent on testing current Intel microprocessors is needed to test on-chip cache...
In order to reduce software complexity and be power efficient, hardware platforms are increasingly i...
Abstract|As the performance gap between processors and main memory continues to widen, increasingly ...
The performance of a computing system heavily depends on the memory hierarchy. Fast but expensive ca...
The motivation of this research is to study different cache designs for on-chip caches that improve ...
Embedded systems are getting popular in today’s world. They are usually small and thus have a limite...
In recent innovation particularly in the modern fields, the PCs are taken advantage of as controllin...
Embedded microprocessor cache memories suffer from limited observability and controllability creatin...
Abstract- In this paper we will present an on-chip method for testing high performance memory device...
Abstract—System functional testing of microprocessors deals with many assembly programs of given beh...
On-chip caches to reduce average memory access latency are commonplace in today\u27s commercial micr...
An innovative cache accessing scheme based on high MRU (most recently used) hit ratio [1] is propose...
The increasing use of microprocessor cores in embedded systems, as well as mobile and portable devic...
International audienceAutomotive embedded systems have an increasing need for computing power. To ad...
The increasing use of microprocessor cores in embedded systems as well as mobile and portable device...
Up to 53% of the time spent on testing current Intel microprocessors is needed to test on-chip cache...
In order to reduce software complexity and be power efficient, hardware platforms are increasingly i...
Abstract|As the performance gap between processors and main memory continues to widen, increasingly ...
The performance of a computing system heavily depends on the memory hierarchy. Fast but expensive ca...
The motivation of this research is to study different cache designs for on-chip caches that improve ...
Embedded systems are getting popular in today’s world. They are usually small and thus have a limite...
In recent innovation particularly in the modern fields, the PCs are taken advantage of as controllin...
Embedded microprocessor cache memories suffer from limited observability and controllability creatin...
Abstract- In this paper we will present an on-chip method for testing high performance memory device...
Abstract—System functional testing of microprocessors deals with many assembly programs of given beh...
On-chip caches to reduce average memory access latency are commonplace in today\u27s commercial micr...
An innovative cache accessing scheme based on high MRU (most recently used) hit ratio [1] is propose...
The increasing use of microprocessor cores in embedded systems, as well as mobile and portable devic...
International audienceAutomotive embedded systems have an increasing need for computing power. To ad...
The increasing use of microprocessor cores in embedded systems as well as mobile and portable device...