Enjoy this sneak peak of IARPA: Disbelief to Doubt Episode 4! In this upcoming episode of Disbelief to Doubt we speak with former Program Manager Michael Di Rosa and explore how quantum computing differs from classical computing approaches, how this technology may eventually change the world, and how IARPA...
Waveforms like Wi-Fi, 4G/5G, and Bluetooth satisfy the general population’s basic wireless communication and information sharing needs, but the static nature of these fixed waveforms is vulnerable to instability. Decades often pass between updated versions of wireless protocols. The ability to quickly conduct point to...
National security missions need to generate, store, use, transmit, and receive information and data both in secure facilities and “in the wild.” Waveforms are often used as the method for the transmission and reception of data generated in these types of missions. The importance of waveform...
IARPA invests in high-risk, high-payoff research with the goal of providing our nation with an overwhelming intelligence advantage. Developing scientific breakthroughs that challenge the state of the art requires IARPA Program Managers (PMs) to take ideas from a place of “disbelief to doubt” before successfully launching an IARPA program. As...
IARPA invests in high-risk, high-payoff research with the goal of providing our nation with an overwhelming intelligence advantage. Developing scientific breakthroughs that challenge the state of the art requires IARPA Program Managers (PMs) to take ideas from a place of “disbelief to doubt” before successfully launching an IARPA...
IARPA is implementing the research security policy of National Security Presidential Memorandum-33 (NSPM-33)[1]. This policy directs federal sponsors of research and development (R&D) to assess whether participants in proposed R&D have potential foreign conflicts of interest or conflicts of commitment that pose...
The End-Gen program seeks to develop generative artificial intelligence (GAI) and machine learning (ML) frameworks capable of consuming input mission objectives in order to output mission waveforms. These novel communications waveforms are generated within two different environments: 1) Through non-foundational GAI-enabled...
Join us for a sneak peek of IARPA: Disbelief to Doubt Episode 3! In this episode, we sit down with Former Office Director Rob Rahmer to discuss his journey from self-professed math geek to leading the Office of Analysis to a prolific number of new programs during his tenure. Part 1 drops on January 13th, 2025 followed by Part 2 on January 27th...
In this episode of Disbelief to Doubt we continue our conversation previously recorded with former IARPA Director Dr. Jason Matheny, who served as IARPA director from 2015 through 2018. In part two of this two-part interview we discuss the impact of IARPA's mission on national security and science, overcoming the...
In this episode of Disbelief to Doubt we turn back the clock to 2018 and sit down with former IARPA Director Dr. Jason Matheny who served as IARPA director from 2015 through 2018. In part one of this two-part interview we discuss a wide range of topics, including Jason's early career in science, how being a "force multiplier" drew him...
DNI.gov The Intelligence Advanced Research Projects Activity (IARPA) — the research and development arm of the Office of the Director of National Intelligence — today announced the start of a multi-year research effort aimed at modifying spontaneous speech in near real-time to protect a speaker’s...
SOLSTICE BAA The SOLSTICE program aims to develop novel solar-powered and hybrid solar-powered systems with significantly higher power density than existing technologies. These systems will be capable of maintaining performance over their mission lifetime in challenging remote applications, including in an earth-orbital environment...
Enjoy this preview of IARPA: Disbelief to Doubt Episode 2! In this retrospective episode, you'll hear former IARPA Director Dr. Jason Matheny talk about what it means to be a force multiplier as an IARPA program manager and discuss lessons learned over a decade of IARPA research breakthroughs. Part 1 drops on November 4th...
In Part 2 of our premiere episode of the Intelligence Advanced Research Projects Activity's (IARPA) new podcast series, we continue our conversation with former Director Catherine Marsh to discuss IARPA's process for funding high-risk/high reward research, what differentiates IARPA's mission from that of DARPA's, how Program Managers are empowered...
In Part 1 of the premiere episode of the Intelligence Advanced Research Projects Activity's (IARPA) new podcast series, we sit down with former Director Catherine Marsh to discuss IARPA's origin story and the world events that led to her joining government service and set her on a path to leading what the New York Times...
Dr. Tom Schneider joined IARPA in August 2023. In his current assignment as a Program Manager, Dr. Schneider focuses on areas of scientific research that include sensor systems, biosecurity, and chemical and biological defense. He is currently the Program Manager for the B24IC-targeted seedling effort which aims to...
Christopher Roberts joined IARPA as a Program Manager in June 2024. Mr. Roberts is passionate about bridging the gap between research and real-world applications. His primary research interests are embedded system design, electromechanical integration, technical risk management, and computed tomography (CT) X-ray....
The Intelligence Advanced Research Projects Activity (IARPA) is seeking information on methodologies to assess Foreign Malign Influence (FMI). FMI includes “subversive, undeclared (including covert and clandestine), coercive or criminal activities by foreign governments, non-state actors, or their proxies to affect...
The Intelligence Advanced Research Projects Activity (IARPA) seeks information regarding methodologies capable of arbitrary generation of communication waveforms in a wide variety of propagation media. Point-to-point communications are at the heart of innumerable mission spaces spanning a host of different objectives. At present, most...
Solar energy conversion is a time-tested method to provide power to electrical devices in remote locations where the electrical grid is not available, including on land, under water, and in space. Because of the diffuse nature of sunlight and the current efficiency of existing solar photovoltaic (PV) devices,...
