Executive Order 14413, "Ushering in the Next Frontier of Quantum Innovation," directs the federal government to build a large-scale quantum computer for scientific use. The centerpiece is the Quantum Computer for Application Development and Discovery Science effort, called QC-ADDS. The order directs the Department of Energy to deliver at least one QC-ADDS system to a DOE facility and make it available to the scientific community.
Here's some details - within 90 days, DOE must publish the technical specifications required for QC-ADDS to perform transformative scientific applications beyond current classical computer capabilities. Within 180 days, DOE must explore private-sector partnership models and report on cost, scope, and delivery timeframe. DOE has already responded: its Quantum Genesis initiative targets a fault-tolerant, scientifically relevant quantum computing capability by 2028, with a National Quantum Supercomputing User Facility to give U.S. researchers access to systems across multiple qubit modalities.
The Commerce Department must develop a plan for advance market commitments to pull in commercial quantum vendors. The Defense Department gets its own track, establishing programs for national security applications of quantum computing, potentially including a dedicated center. The order also establishes a national center for quantum performance assessment and directs a government-wide quantum workforce recruitment strategy, including special pay rates and retention incentives.
The workforce section carries the most direct relevance for technical education programs. The order tasks NSF to stand up a network of National QIST Workforce Development Institutes within 180 days. Federal money for hands-on QIST training will flow somewhere; the question is where.
There is a thread connecting both orders. The PQC migration order sets a deadline for protecting existing systems. EO 14413 sets a timeline for building the systems that will eventually make those protections necessary. Both orders treat 2030 as the planning horizon. Harvard's Mikhail Lukin put fault-tolerant, large-scale quantum computers at end-of-decade in a recent assessment, five to ten years ahead of earlier estimates.


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