IBM has been scaling up its own quantum computing efforts over the past few years, and the company is now claiming it’ll deliver a 100x improvement in certain workloads. The company isn’t going to deliver this improvement solely through hardware, but through the deployment of new software tools, algorithms, and models.
Late last year, IBM Fellow and VP of Quantum Computing, Jay Gambetta, published a graph showing IBM’s increased quantum volume on the same hardware.
On the same system (IBM Q System One – Montreal) that we hit a quantum volume of 64 the team recently achieved a quantum volume of 128. This year's progress in the quality of quantum circuits has been amazing. pic.twitter.com/pBYmLkmSoS
— Jay Gambetta (@jaygambetta) December 3, 2020
Quantum volume is a metric intended to measure the capabilities and error rates of a quantum computer. IBM introduced the metric as a way of cross-comparing the capabilities of quantum computers with different architectures. IBM has continued to hit higher quantum volume values without increasing the number of physical qubits in the system. Quantum volume measures the maximum size of the problem that can be successfully implemented by the quantum computer. If IBM is increasing the size of the quantum volume they can tackle without increasing the number of physical qubits in the machine, it means the company had made underlying improvements to its system.
IBM’s big announcement today is about the upcoming release of the Qiskit runtime, coming later this year. Qiskit supposedly increases the capacity to run more circuits at a much faster rate than ever before, the company said, and it can store quantum programs so others can run them as a service.
According to IBM, it’ll be possible to run dynamic circuits — defined as circuits that incorporate both classical and quantum instructions, but that must be completed within the coherence time of the qubits themselves — by 2022. In 2023, IBM will launch new circuit libraries and control systems that give developers access to large qubit fabrics. No word on whether IBM has any plans to knit a quilt out of all this fabric. The 100x speedup is specifically claimed for workloads that “exploit iterative circuit execution.”
IBM wants to offer an entire array of runtimes by 2023, callable from a cloud-based API. If you read IBM’s blog posts, the company is arguing for a vision of itself as a hybrid cloud provider where you’ll be able to run classic computing workloads and quantum computing workloads side-by-side. The goal, by 2023, is to allow customers to explore quantum computing models on their own, without having to worry about the underlying quantum physics. There are some obvious parallels here with the advent of classical computing and the creation of more advanced programming languages that hid complexity from the end-user.
IBM’s Eagle is supposed to debut this year, with through-silicon vias, multi-level wiring, 127 qubits, and a new topology IBM has previously called Heavy Hexagon. The plan is to jump ahead even further with 2023’s Osprey, a 433-qubit machine. If IBM can keep quantum volume rising alongside its actual number of qubits, and if its software delivers the kind of improvements the company claims, we may see quantum computers begin to seriously challenge classical machines in a wide range of practical problems over the next three to six years.
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