- The 70+ best Black Friday TV deals 2024: Save up to $2,000
- This AI image generator that went viral for its realistic images gets a major upgrade
- One of the best cheap Android phones I've tested is not a Motorola or Samsung
- The best VPN services for iPhone: Expert tested and reviewed
- Docker Desktop 4.36 | Docker
IBM wants a 4,000 qubit quantum computer by 2025
IBM has grand plans for its quantum-computing systems but acknowledges much work needs to be done.
IBM announced its goal to build a 4,000 qubit system by 2025 at its Think! event this week saying it wanted to build practical quantum-computing systems that feature an intelligent software orchestration layer to efficiently distribute workloads and remove infrastructure challenges.
“We think by next year, we’ll begin prototyping quantum software applications for specific use cases,” IBM stated. “We’ll begin to define these services with our first test case—machine learning—working with partners to accelerate the path toward useful quantum software applications.”
The big goal is to build what by today’s terms would be a massive quantum computer—a 4,000+ qubit system built with clusters of quantum processors. IBM’s current quantum processor, Eagle, supports 127-qubit processing, and by the end of the year it expects to roll out Osprey, a 433-qubit processor, to be followed in 2023 by the 1,121-qubit Condor processor.
Getting to the immense goal IBM envisions will involve strapping together three 1,386 qubit multi-chip processors IBM calls Kookaburra for a total of 4,158-qubits.
To get to that goal IBM and its partners will need to develop tons of new software that can control and tie such systems together while eliminating errors that can drag down quantum work.
“Our goal is to build quantum-centric supercomputers,” IBM researchers wrote in a blog about the company’s plans. “The quantum-centric supercomputer will incorporate quantum processors, classical processors, quantum communication networks, and classical networks, all working together to completely transform how we compute.”
In order achieve its goals, IBM said it needs to solve the challenge of scaling quantum processors by developing a runtime environment for providing quantum calculations with increased speed and quality, and by introducing a serverless programming model to allow quantum and classical processors to work together without friction.
IBM plans build on its current Qiskit Runtime software for experimenting with algorithms to create and handle quantum programs.
IBM said that in 2023 it will support direct Qiskit Runtime and workflows built in the cloud, to bring a serverless approach into the core quantum software stack and give developers advanced simplicity and flexibility. This serverless approach will also mark a critical step in achieving the intelligent and efficient distribution of problems across quantum and classical systems, IBM stated.
In that timeframe the company will also add the ability for quantum processors to operate in parallel. In addition IBM said it will develop short-range, chip-level couplers to tie together quantum chips to form a single, larger processor
“In 2024 and 2025, we’ll introduce error mitigation and suppression techniques into Qiskit Runtime so that users can focus on improving the quality of the results obtained from quantum hardware. These techniques will help lay the groundwork for quantum error correction in the future,” IBM stated.
The company said it thinks that by next year it will partner to start prototyping quantum software applications for specific use cases, starting with machine learning. By 2025, IBM said, model developers will be able to explore quantum applications in machine learning, optimization, natural sciences, and more.
Copyright © 2022 IDG Communications, Inc.