Protocol Labs Research
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We explore the future of decentralization and examine the infrastructure limiting what you can do with technology.

Our research philosophy

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2024-05-01 / Posts

A farewell to Protocol Labs Research

Reflecting on my time at Protocol Labs Research over the past five years, I can’t help but feel grateful. What began as a journey into uncharted territories of start-up research evolved into an extended mosaic of happy memories.

2024-02-27 / Talks

F3 and GossipBFT: Fast finality on longest-chain protocols

We present F3, a finality component designed to bring fast finality to Filecoin. F3 leverages a novel consensus protocol, GossiPBFT, that runs on the side and finalizes tipsets in tens of seconds instead of hours, while laying the basis for verifiable cross-chain bridging.

2024-02-01 / Publications

A finality calculator for Filecoin’s Expected Consensus

We propose a finality calculator for Filecoin’s Expected consensus that considers what takes place during epochs and can attain, under normal operating conditions, an error probability of 2^(−30) in 30 epochs (15 minutes) - a 30x improvement over the current 900-epoch threshold.

2023-08-30 / Publications

Filecoin Proof of Useful Space

This document provides a simple formal definition of Proof of Space (taken from the academic literature) and an informal definition of persistent and useful space (needed for Filecoin). It describes construction details and a security proof for the Stacked-DRGs proof of space (SDR), and goes into how SDR is used in Filecoin.

Research areas

Our mission urges us to consider problems across multiple subject areas, both applied and theoretical. We pursue these problems in the open and share our results in recorded talks and published papers.

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Knowledge engineering

We aim to use learnings from previous efforts, growth in available data, and ambitions of qualitatively novel capabilities to facilitate the discovery, linking, and processing of knowledge. This work primarily consists of support for The Underlay, a project intending to build a global, distributed graph of public knowledge.

Type theory

A long-term goal for the IPFS ecosystem is to merge distributed apps and local apps into a single paradigm: fundamentally rethinking the UNIX programming model for a content-addressable platform. As a component of this, we aspire to make the best use of state-of-the-art advances in programming language design and implementation, such as substructural types, modal types, and algebraic effects.

Applied category theory

Category theory (CT) originated as a subdiscipline of pure mathematics, with a historical strength in unifying disparate mathematical areas to transport proofs and constructions between them. CT can also be viewed as an upgraded foundation for all of math, taking the place traditionally occupied by first-order logic and set theory, and is commonly used in theoretical computer science (especially type theory), and as a foundation for computational theorem-proving.

Distributed systems

Distributed systems are, broadly speaking, networked systems whose components are located in different nodes that communicate and coordinate to achieve the system’s purpose. Distributed systems are at the very core of what we do and our interests extend across the entire field.

Cryptography

Modern cryptography plays an integral role in every aspect of online and electronic security, including providing evidence you’re speaking to the intended party and hindering spying on the subsequent communication. Cutting-edge cryptography tools will allow the creation of incredibly strong evidence that general information processing has been performed in a privacy-preserving and trustless way.

Cryptoeconomics

In any forum or marketplace where people can interact, the venue itself guides and constrains human interaction. Cryptoeconomics provides practices, tools, and knowledge that allow us to engineer the venue to achieve a goal.

Distributed power systems

Our electricity system is undergoing a monumental transition from a centralized design based on fossil fuels to a distributed architecture based on renewable energy. Successfully navigating this requires reconceiving the grid as a distributed system, able to coordinate diverse resources and influence the deployment of capital by setting up appropriate incentive structures.

Networking

Computer networks enable information to move across the globe. They are foundational to the world we live in and to the vast majority of our work. Our interests include transport and routing protocols, network security, p2p systems, publish-subscribe protocols, and network monitoring and simulation.

Metaresearch

Metaresearch is the investigation of how scientific innovation occurs. It encompases work in the history, philosophy, and economics of science; the effects of incentive systems in research; the evaluation and validation of scientific data; and the dissemination of scientific knowledge, among other fields.

Our People

We're a fully remote team distributed across the globe. We work with talented and intellectually curious people of diverse backgrounds and perspectives who share a passion for improving technology for humanity.

Meet the team