Moores Law

WHY THIS MATTERS IN BRIEF As transistors reach their physical limits we need to develop fundamentally new computing architectures, and…

WHY THIS MATTERS IN BRIEF Exponential computing platforms that have more processing power than mammalian brains are now a reality,…

WHY THIS MATTERS IN BRIEF Graphene’s weird properties could help create computer chips that are thousands of times faster than…

WHY THIS MATTERS IN BRIEF There is a concern that the lack of focus on developing new, advanced hardware will…

WHY THIS MATTERS IN BRIEF As transistors get smaller companies are going to be able to create computers that are…

WHY THIS MATTERS IN BRIEF Standardised processors that run multiple workloads, but that have to be especially optimised to run…

WHY THIS MATTERS IN BRIEF As silicon based transistors, the bed rock of today’s modern computing platforms, near their theoretical…

WHY THIS MATTERS IN BRIEF As physical chip design starts to near its limits it is getting harder for companies…

WHY THIS MATTERS IN BRIEF Berkeley Lab breakthrough might help to reboot Moores Law.   Transistor size is an important part…

WHY THIS MATTERS IN BRIEF Carbon nanotube transistors finally out perform their traditional silicon counterparts.   The computing industry has…

WHY THIS MATTERS IN BRIEF Rose’s Law for Quantum Computing highlights the new platforms sheer power to solve humanity’s and…

WHY THIS MATTERS IN BRIEF Intel wants to dominate the next generation of “Things” and it’s joined forces with ARM…