Smart, Stretchable, and Sustainable- The Future of DLP-Printed Flexible Devices

Posted on May 8, 2025

News: Deposited Perovskite Semiconductors Power Next Generation Circuits
Launches: Smart, Stretchable, and Sustainable: The Future of DLP-Printed Flexible Devices
Charts: Dielectric Materials Database Promises Faster Path to Smarter Electronic Devices
Research: Beyond the Memory Wall: Unleashing Bandwidth and Crushing Latency
Insight: Speculative Execution: Rethinking the Approach to CPU Scheduling

News

Deposited Perovskite Semiconductors Power Next Generation Circuits
A research team from POSTECH has developed a breakthrough technology using tin-based perovskites that revolutionizes transistor efficiency and performance. By applying thermal evaporation for producing high-quality semiconductor layers, they have achieved high hole mobility and an impressive on/off current ratio, making this technology compatible with existing OLED production methods.

Launches

Smart, Stretchable, and Sustainable: The Future of DLP-Printed Flexible Devices
Researchers are advancing digital light processing (DLP) 3D printing for flexible electronics, enabling the creation of high-performance, customizable devices. This technology promises innovations in wearables and energy systems, highlighting the shift towards environmentally-friendly and versatile production methods.

Charts

Dielectric Materials Database Promises Faster Path to Smarter Electronic Devices
Researchers have developed a comprehensive database of dielectric material properties from over 20,000 samples, significantly enhancing material discovery for electronics. This database will accelerate innovation and improve the development of next-generation electronic materials.

Research

Beyond the Memory Wall: Unleashing Bandwidth and Crushing Latency
VSORA’s new architecture features reconfigurable compute tiles and a tightly-coupled-memory system, enhancing efficiency for AI applications. This innovative design addresses the latency and bandwidth challenges faced by traditional computing architectures, paving the way for faster processing in edge devices.

Insight

Speculative Execution: Rethinking the Approach to CPU Scheduling
Dr. Thang Tran discusses the inefficiencies associated with speculative execution in modern CPUs and proposes a shift towards predictive execution models. This new model promises enhanced efficiency and reduced power consumption, critical for future computing architectures.

Stay tuned with us for the latest updates in semiconductor innovations and advancements shaping the future of technology!