Akshay Gaikwad is a distinguished reliability engineer with a Master of Science in Mechanical Engineering from Rochester Institute of Technology. His academic excellence, demonstrated by a 3.78 GPA, ...

Reliability engineering is a critical discipline that integrates engineering principles with advanced statistical techniques to ensure that products perform consistently over their intended lifespan.

The study of lifetime distribution and reliability testing seeks to characterise the statistical behaviour of time-to-failure data for components and systems across a range of applications, from ...

Digital twins dominated discussions at SEMICON West this year, appearing in keynote presentations, panel sessions, and workshops. The conversation reflected a noticeable shift in how the industry ...

Analytical AI ranks risk, flags anomalies and analyzes test failures for automation stability and defect triage, while GenAI ...

Multi-die assemblies are bringing together a variety of materials and processes with distinctly different physical properties, creating significant challenges in manufacturing and packaging that can ...

Times are changing fast. Take the automotive industry for example. Software has evolved far beyond infotainment, now controlling everything in the car, including braking and steering for the driver.

In today’s digital economy, engineering leaders face a paradox. Businesses are demanding faster releases, but at the same time, customers and regulators are insisting on higher reliability than ever ...

Value stream management involves people in the organization to examine workflows and other processes to ensure they are deriving the maximum value from their efforts while eliminating waste — of ...

Software testing has evolved significantly over the past decade. What began as heavily manual validation gradually shifted toward automation frameworks and continuous integration pipelines. Today, a ...