The Start of a New Era
Have you heard the latest news? Google have gone and mesmerised the world with their most recent announcement of Willow. Willow, is their most sophisticated and powerful quantum computing chip to date. Why is this important you ask? Well, this new development isn’t just for scientific research in labs, it has the potential to change fields such as pharmaceutical research to financial modelling and many more!
In this article, I will be discussing what is quantum advantage, why Willow is important, real-world applications (so where and what will be benefitting from this insane new update), Google’s journey with quantum and what is new in the pipeline for Willow.
If you’re looking to read about Willow in more detail, you’ve come to the right place!
What is The Quantum Advantage?
Okay, so before we nestle down to all the nitty gritty details of Willow and Google, it’s best to ease into the topic by discussing the basics. What is quantum advantage?
It’s important to know, that traditional computers process information in a fundamentally limited way, no matter how powerful they are! They work with bits, which must be either 1 or 0, think of it like having millions of tiny switches that must be either on or off. Because of this format that has been made, it then limits to what a classic computer can do. When it comes to complex problems such as looking at huge number of possibilities at the same time, they will struggle compared to quantum computers.
So how do quantum computers work, and how are they different to classical computers you may ask? Quantum computers don’t work with codes of 1 and 0 like classical computers, they use something called “qubits,” which can be in multiple states at the same time (a concept called superposition). This unique feature lets them handle some problems much faster than traditional computers ever could.
The main real benefit of a quantum computer, is it’s power to work on multiple possibilities at the same time. As mentioned above something that a classic computer cannot do. What is fascinating, is that the more qubit you add, ability to do multiple calculations grows dramatically, making them far more powerful than traditional computers for certain tasks.
Willow’s Features
Okay now we have that explained and out of the way, lets move over to the main topic of conversation today. Willow.
A 100 Microsecond Milestone
Okay so why is Willow making headlines, and what is so good about it?
Well as we discussed earlier, quantum computing is all about working with multiple possibilities at a time in a timely manner. Willow takes quantum computing to a whole new level, with it’s ability to stay in it’s quantum state much longer than it’s previous version. It has been recorded that it can stay in this quantum state for 100 microseconds, five times longer than its predecessor, Sycamore.
Microseconds sound tiny right? Well though that is true for our natural human timescale, in the quantum world however, this is a huge leap forward. These extended coherence times allow for more complex calculations and bring us closer to practical quantum computing applications.
This is huge news, as with longer coherence times quantum computers are able to run more complex calculations before their quantum state breaks down. This makes it possible to tackle problems that were to difficult to solve before.
Correcting The Errors
One challenge that is constantly an issue, is managing errors as quantum states are fragile. Keeping them stable enough has been proven difficult in the past.
Willow is able to overcome these problems using ‘logical qubits’, allowing it to stay stable enough to correct these errors. This breakthrough represents the first time this level of error correction has been achieved in a practical quantum system.
The only way we will be able to create reliable quantum computers, is by fixing these errors more effectively. This will stop crashes and result in no mistakes being produced.
Advance Design
Willow’s new design sets it apart from other previous quantum processors, featuring an innovative architecture chip. The new structure allows qubits to interact more efficiently, helping to run more advanced quantum calculations. The system’s adjustable qubits and connectors also work faster and with fewer errors, this is pushing the limits of what quantum computers can do!
Willow’s features a chip that has an advance design and is built specifically for quantum computing applications. With these slight improvements, the qubits are more stable and less affected by outside factors. This creates a more reliable system.
The Real-World and The Impact
Transforming Medical Research
Medical research will have a positive impact from using Willow. It can speed up drug discovery by simulating how molecules interact with amazing accuracy. This then would shorten the amount of time it would take to discover new medicines, cutting the development cycles from years to months! Researchers could better understand protein folding and how drugs work, leading to better treatments for difficult diseases.
Willow can assist by helping scientists understand better how diseases work at the molecular level, this is done by accurately simulating quantum systems. As a result of this, it could lead to news ways of treating diseases like cancer or neurodegenerative conditions, allowing the possibilities for new medical breakthroughs.
New Financial Systems
Another industry that will be able to benefit from Willow’s capabilities, is the financial sector. Risk assessments that are complex, originally would have taken days to be completed, but with the help of Willow could now be completed in a matter of minutes.
Willow can even help with the process of managing investments (also known as portfolio optimisation) become more advanced. By taking into consideration a variety of factors and market scenarios, Willow could make a more stable financial system with better investment strategies.
This means that quantum computing has the potential to completely change how we protect data and secure financial transactions. However, for this to happen, further improvements are needed in error correction and making qubits more stable.
Helping Climate Science
Understanding and predicting climate change requires processing enormous amounts of data and recreating intricate environments. This is where Willow can come in to play and aid with this. Willow’s quantum abilities could help make these models more accurate, helping scientists better understand and predict climate patterns. This could prove hugely valuable to finding effective solutions to combat climate change.
Willow’s ability to simulate accurate chemical reactions could also help in creating efficient technologies for capturing carbon and discovering new materials for renewable energy. Making the efforts to fight climate change more effective.
Google’s Quantum Journey
Google’s journey with quantum computing is hugely impressive, and with the latest announcement of Willow, it is another milestone for them to tick. Starting with Foxtail in 2017, followed by Bristol Cone in 2018 and Sycamore in 2019, each project has brought significant improvements. Google has continuously shown their dedication and long-term commitment to advancing quantum technology, through investing in a new facility located in Santa Barbara.
This facility is focussed on making quantum chips, using specialised equipment and featuring state-of-the-art clean rooms.
The Path Forward
We are in the early stages still of quantum computing development, despite the huge success of Willow. The technology continues to evolve rapidly, and new applications are being discovered regularly. As quantum computers become more powerful and reliable, we may unlock possibilities that we haven’t yet imagined. The establishment of Google’s new fabrication facility suggests that we can expect even more breakthroughs in the coming years. This dedicated space for quantum chip development could accelerate the pace of innovation, potentially leading to even more powerful quantum processors in the near future.
Looking to The Future
The quantum computing revolution isn’t a distant dream—it’s unfolding right now. Willow is more than just technology; it marks a major change in how we approach solving tough problems. As we continue to push the boundaries of what’s possible with quantum computing, we’re not just advancing technology—we’re unlocking new possibilities for human knowledge and what we can achieve.
The next few years will be crucial in figuring out how quickly quantum computing can move from the research lab to practical applications. With continued investment and innovation, we might see quantum computers solving real-world problems sooner than we think.
Lydia has over 4 years in the marketing industry in a variety of industries and currently works as the Head of Marketing and Communications for Disruptive LIVE (a Compare the Cloud brand) creating marketing strategies and creating engaging content. Lydia has a proven track record of leading effective digital marketing campaigns for both B2B and B2C brands.