IIT Madras scientist to improve algorithms in lattice cryptography

Shweta Agrawal from the Indian Institute of Technology, Madras, has become one of the 14 recipients of the Swarnajayanti Fellowship 2020. It was instituted by the Centre to commemorate the golfen jubilee of India's independence and is funded by the Department of abd Technology. 

Agarwal said she would like to use the fellowship to conduct a deep study on one of the most promising approaches for post-quantum cryptography — lattice-based cryptography to improve algorithms and understand gaps between theory and practice. Lattice-based cryptography, resistant to attack by both classical and quantum computers, is the leading candidate for post quantum cryptography and design of a cryptographic system for the future. 

Cryptography is a branch of theoretical computer science that seeks to provide guarantees to the art of secret keeping. This field balances itself on the tightrope of mathematical beauty on one side, and practical importance on the other. The scientific charm of this field lies in the deeply paradoxical questions it poses.

The simplest goal of cryptography is to hide information so that learning a message from a cryptographically sealed envelope implies a solution to some well known mathematical problem. By suitably choosing the underlying mathematical problems to be difficult, we may rest assured that an attacker’s chances of learning secret information are extremely small.

Typically, an attacker is modelled as a classical computer. However, recent times have seen significant advances in the construction of quantum computers, which are based on the laws of quantum rather than classical physics. Most modern-day cryptography relies on the difficulty of problems which, while difficult for classical computers, are efficiently solvable by quantum computers. Thus, most modern-day cryptography breaks down if quantum computers are used by the attacker.

A few weeks ago, Google claimed to have demonstrated “quantum supremacy” by constructing a quantum computer that can experimentally demonstrate a massive speedup over a classical computer. Soon after, Chinese researchers claimed that they expect to demonstrate quantum supremacy by next year. Thus, the advent of quantum computers has crossed the realm of scientific fantasy and looms as a real threat in the near future. Therefore, it is imperative to redesign cryptography ground up to resist quantum computers — that is, to design post-quantum cryptography. This is the focus of Agrawal’s work. (DST media cell)

Developing expertise in post-quantum cryptography is of national importance. Aside from its practical importance, this is a rich and emerging area of cryptography, and construction of state of the art systems in this field can significantly enhance the visibility of India in the global arena. Not only does her proposed work help create intellectual property, but it also creates expertise within the country that will lead to intelligent post-quantum cryptography design for the use of our government, military, industry and society alike.

In her current work, Agrawal has provided constructions of advanced cryptographic protocols that are believed to be resistant to quantum computers. She has particularly focused on the emerging field of ‘computing on encrypted data’, which may allow (for instance), machine learning algorithms to be run on encrypted ​ genetic data, leading to advances in the field of personalized medicine. Such algorithms, if realised efficiently, can have wide applications in areas as diverse as medicine, governance, social sciences, and many others, leading to an elegant synthesis of disparate sciences.

This is a young field, and there are significant gaps in the understanding of this area. Her research agenda is to tackle fundamental questions in lattice based cryptography, to endeavour to fill in these gaps. She hopes to create national expertise in lattice based cryptography that will benefit society by creating knowledge and applications alike.

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