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Webinar: Reliability Prediction Based on Multiple Accelerated Life Tests By Dr. Joseph Bernstein
February 16 @ 8:30 am - 10:30 am$200
Reliability Prediction Based on Multiple Accelerated Life Tests by Professor Joseph Bernstein
Join us for a webinar on February 16, 2022 at 8:30 – 10:30 AM PST. Cost $200 per person, Group discounts available! This course will be recorded and can be purchased to view at a time more convenient for you. Contact us for details.
To this day, the users of our most sophisticated electronic systems that include opto-electronic, photonic, MEMS device, etc. are expected to rely on a simple reliability value (FIT) published by the supplier. The FIT is determined today in the product qualification process by use of HTOL or other standardized test, depending on the product. The manufacturer reports a zero-failure result from the given conditions of the single-point test and uses a single-mechanism model to fit an expected MTTF at the operator’s use conditions.
The zero-failure qualification is well known as a very expensive exercise that provides nearly no useful information. As a result, designers often rely on HALT testing and on handbooks such as Fides, Telecordia or Mil Handbook 217 to estimate the failure rate of their products, knowing full well that these approaches act as guidelines rather than as a reliable prediction tool. Furthermore, with zero failure required for the “pass” criterion as well as the poor correlation of expensive HTOL data to test and field failures, there is no communication for the designers to utilize this knowledge in order to build in reliability or to trade it off with performance. Prediction is not really the goal of these tests; however, current practice is to assign an expected failure rate, FIT, based only on this test even if the presumed acceleration factor is not correct.
We present, in this tutorial, a simple way to predictive reliability assessment using the common language of Failure In Time or Failure unIT (FIT). We will evaluate the goal of finding MTBF and evaluate the wisdom of various approaches to reliability prediction. Our goal is to predict reliability based on the system environment including space, military and commercial. It is our intent to show that the era of confidence in reliability prediction has arrived and that we can make reasonable reliability predictions from qualification testing at the system level. Our research will demonstrate the utilization of physics of failure models in conjunction with qualification testing using our Multiple – HTOL (M-HTOL) matrix solution to make cost-effective reliability predictions that are meaningful and based on the system operating conditions.
In this seminar, you will learn:
- Understanding of constant-rate failure prediction (MTBF and FIT)
- Limitations of the standard Single-Failure-Mechanism approach
- How accelerated tests can be designed for multiple mechanisms
- How multiple-mechanism models can be linearly combined
- How this linear combination can make realistic reliability predictions
About Your Instructor:
Professor Joseph Bernstein is an expert in several areas of nano-scale micro-electronic device reliability and physics of failure; including packaging, system reliability modeling, gate oxide integrity, radiation effects, Flash NAND and NOR memory, SRAM and DRAM, MEMS and laser programmable metal interconnect. He has licensed his own technology and consulted for RFID and SRAM applications related to fuse and redundancy and for programmable gate arrays and system-on-chip. He directs the Laboratory for Failure Analysis and Reliability of Electronic Systems, teaches VLSI design courses and heads the VLSI program at Ariel University. His Laboratory is a center of research activity dedicated to serving the needs of manufacturers of highly reliable electronic systems using commercially available off the shelf parts. His latest project is to qualify COTS for satellite operation and works with the FIDES European reliability standards. His formulations have become integrated throughout much of the electronics industry. He lectures around the world, presenting his common-sense approach to reliability testing and reliability. He also closely works with both testing and reliability software companies.
After registering, you will receive a confirmation email containing information about joining the webinar.