'I'm sorry Dave': NASA is working on an AI chip to help next-generation spacecraft think for themselves so clearly they haven't seen 2001: A Space Odyssey

Date:
Mon, 18 May 2026 20:35:00 +0000

Description:
NASA developed a powerful autonomous spacecraft processor designed to improve deep-space decision-making without constant Earth communication.

FULL STORY ======================================================================Copy link Facebook X Whatsapp Reddit Pinterest Flipboard Threads Email Share this article 0 Join the conversation Follow us Add us as a preferred source on Google Newsletter Subscribe to our newsletter NASA developed autonomous spacecraft processors with dramatically higher computing performance levels New radiation-hardened chip delivers hundreds of times greater processing capability Deep-space communication delays are driving demand for autonomous onboard decision systems A famous warning about autonomous machines from the 1968 film 2001: A Space Odyssey appears to have faded from NASA's memory, if it was ever taken seriously at all.

The space agency is now developing a powerful new processor that could allow spacecraft to make independent decisions during deep space missions. As part of the High-Performance Spaceflight Computing (HPSC) project, this technology aims to reduce reliance on Earth-based controllers, which currently face long communication delays. Latest Videos From You may like How NASAs Orion spacecraft uses eight processors to ensure mission success Nvidia wants to power the next generation of data centers in space Teslas new AI5 chip won't improve Full Self-Driving anytime soon A leap in space computing performance NASA claims its new radiation-hardened chip delivers up to 100 times more computing power than current spaceflight hardware, and early test results
have even shown performance levels roughly 500 times greater than existing radiation-protected processors.

Building on the legacy of previous space processors, this new multicore
system is fault-tolerant, flexible, and extremely high-performing, said
Eugene Schwanbeck, a program manager at NASA Langley Research Center.

Any processor destined for deep space must endure extreme electromagnetic radiation and dramatic temperature swings.

High-energy particles from the Sun can easily trigger computer errors that force conventional spacecraft into a protective safe mode. Are you a pro? Subscribe to our newsletter Sign up to the TechRadar Pro newsletter to get
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Engineers at NASAs Jet Propulsion Laboratory are subjecting the prototype to punishing simulations of these conditions.

We are putting these new chips through the wringer by carrying out radiation, thermal, and shock tests, explained Jim Butler, the project manager for High Performance Space Computing at JPL.

The chip must also handle the unique challenges of planetary landings without human intervention. What to read next AMD promotes open platform approach for space AI Anthropic drops shocking warning about near-future AI that can program and improve itself Qualcomm reveals its super-powered Raspberry Pi competitor, promising AI power which will be 'enabling systems that dont just interpret the world they interact with it'

These dramatic improvements raise a legitimate question about whether engineers have considered the potential risks of truly autonomous machines. Autonomy versus the ghost of HAL Science fiction enthusiasts reading this might immediately recall 2001: A Space Odyssey , where a thinking computer named HAL tragically malfunctions in a story serving as a cautionary tale about granting machines too much independent authority over human lives.

NASA now envisions spacecraft that can process scientific data instantly and respond to unexpected hazards without waiting for instructions from Earth.

The agency is testing how the chip handles high-fidelity landing scenarios that would normally require power-intensive hardware to process massive
sensor data volumes.

One must acknowledge that modern spacecraft already rely on automated systems for many routine functions.

The difference here lies in the scale of autonomy and the use of onboard artificial intelligence for mission-critical decisions.

NASAs collaboration with Microchip Technology has already produced sample chips for defense and commercial aerospace partners.

The finished processor could eventually support crewed missions to the Moon and Mars, where communication delays of several seconds would make real-time human control impractical.

Whether this technological leap invites unforeseen risks remains an open question - after all, HALs famous line, Im sorry, Dave, Im afraid I cant do that, began with the best engineering intentions.

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