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Dr. Pedro Espina joined IARPA in September 2020 as the Office Director for the Office of Collection. Prior to joining IARPA, he led the National Geospatial-Intelligence Agency’s geophysics research efforts and supported the National Reconnaissance Office’s basic research portfolio. From 2015-2016, Dr. Espina served as the National Institute of Science and Technology’s (NIST) international science and standards advisor.

From 2013-2015, he supported the Federal Bureau of Investigation as the senior science and technology advisor and was the executive director of the White House National Science and Technology Council from 2010-2013. From 2005-2010, Dr. Espina served at the International Bureau of Weights and Measures in Paris and served as a flow measurement scientist for the Department of Commerce from 1987-2005. Dr. Espina was also part of NIST’s response to the Deepwater Horizon incident, where he served on the team that calculated the size of the oil spill. His efforts earned him accolades, including the Department of Commerce’s silver medal, which is granted by the secretary of commerce for exceptional contributions that have a direct and lasting impact.

Dr. Espina earned a bachelor’s degree in mechanical engineering from the University of Puerto Rico and a master’s degree and doctorate from the University of Maryland.

Dr. Pedro Espina joined IARPA in September 2020 as the Office Director for the Office of Collection. Prior to joining IARPA, he led the National Geospatial-Intelligence Agency’s geophysics research efforts and supported the National Reconnaissance Office’s basic research portfolio. From 2015-2016, Dr. Espina served as the National Institute of Science and Technology’s (NIST) international science and standards advisor. From 2013-2015, he supported the Federal Bureau of Investigation as the senior science and technology advisor and was the executive director of the White House National Science and Technology Council from 2010-2013. From 2005-2010, Dr. Espina served at the International Bureau of Weights and Measures in Paris and served as a flow measurement scientist for the Department of Commerce from 1987-2005. Dr. Espina was also part of NIST’s response to the Deepwater Horizon incident, where he served on the team that calculated the size of the oil spill. His efforts earned him accolades, including the Department of Commerce’s silver medal, which is granted by the secretary of commerce for exceptional contributions that have a direct and lasting impact. Dr. Espina earned a bachelor’s degree in mechanical engineering from the University of Puerto Rico and a master’s degree and doctorate from the University of Maryland.

Mr. Robert Rahmer is IARPA’s Office Director for Analysis Research. Mr. Rahmer joined IARPA in 2014 as a Program Manager. He specialized in discovering and developing novel proactive and predictive methods for securing computational environments, and led the CAUSE, CORE3D, VirtUE and FUSE programs. Mr. Rahmer’s primary research focus included cybersecurity, cyber-event forecasting, cyber-actor behavior and cultural understanding, threat intelligence, threat modeling, cyber-event coding, and cyber-kinetic event detection. Prior to arriving at IARPA, Mr. Rahmer led several technical computer network operations teams that focused on reverse engineering, incident response, tactical development, and cyber threat intelligence analysis, in support of multiple government organizations. Mr. Rahmer has supported the IC since 2003 in various roles as a contractor, providing technical expertise in cyber-security analysis, security engineering, and cyber intelligence analyst training for commercial, Department of Defense, and IC organizations. He also served in the U.S. Navy as part of its Naval Nuclear Propulsion Program. Mr. Rahmer holds a master’s degree in computer science from Johns Hopkins University and a bachelor’s degree in computer science from the University of Maryland Baltimore County. He also holds several industry information security certifications, including the Certified Information System Security Professional certification.

Dr. Catherine Marsh became director at the Intelligence Advanced Research Projects Activity in November 2019, where she is responsible for investing in high-risk/high-payoff research that has the potential to provide our nation with an overwhelming intelligence advantage. Prior to this assignment, Dr. Marsh was the chief scientist for the CIA’s Directorate of Science and Technology from 2016-2019, where she was responsible for ensuring that leading-edge science and technology underlies current and future mission capabilities. Before that, she was dean of the DS&T’s George Methlie School. From 2013-2015, she served as IARPA's deputy director. Dr. Marsh joined the CIA in 2001 and served in serval capacities to innovate power solutions for the Intelligence Community. While in industry, she led the team that put lithium-ion technology on numerous platforms, including NASA’s MARS exploration rovers Spirit and Opportunity. Dr. Marsh is a director of National Intelligence Fellow and member of the DS&T’s distinguished expert cadre. She holds a bachelor’s degree and doctorate in inorganic and analytic chemistry from Brown University.

The Tools for Recognizing Useful Signals of Trustworthiness (TRUST) Program seeks to significantly advance the IC's capabilities to assess who can be trusted under certain conditions and in contexts relevant to the IC, potentially even in the presence of stress and/or deception.

The goal of the TIC Program is to develop and demonstrate split-manufacturing, a new approach to chip fabrication where security and intellectual property protection can be assured.

STONESOUP develops and demonstrates comprehensive, automated techniques that allow end users to securely execute software without basing risk mitigations on characteristics of provenance that have a dubious relationship to security.

IARPA started the Security and Privacy Assurance Research (SPAR) Program in 2011, building on the past IARPA Automatic Privacy Protection (APP) Program.

SLiCE focuses on enhancing geolocation in complex environments primarily from long standoff receivers.

The goal of the Sirius Program is to create Serious Games to train participants and measure their proficiency in recognizing and mitigating the cognitive