The(ISS) has confirmed using its HPE-powered Spaceborne Supercomputer-2 appliance to assess the long-term health impacts of space travel on astronauts.
The HPE edge computing device has been aboard the ISS since February 2021. It was deployed to enable researchers to use artificial intelligence (AI) to progressa human-crewed mission to Mars.
As, the microwave-sized device is built around HPE’s Edgeline EL4000 converged edge computing devices, and one of its ProLiant DL360 Gen110 appliances is set to run on the ISS for the next two to three years.
The setup is designed to ingest data from various sources, including satellites and cameras, for real-time processing. It also has graphic processing units (GPUs) to handle compute-intensive AI and machine-learning workloads.
HPE has also partnered with Microsoft so that – as and when needed – it can use the burst capacity of theto handle computationally heavy workloads too.
The “cloud bursting” characteristic of the supercomputer’s design has been used during an experiment designed to gauge how long-term radiation exposure can affect the health of astronauts,.
“The effects on a human body of lengthy sojourns in space aren’t fully known, makingover time-critical,” the company said.
To that end, astronauts in that experiment download their genomes and use the supercomputer to check their geneticabnormalities.
“Those [genomes] then get compared to the National Institute for Health’s database to find out whether there are any new mutations, and if those are benign and the mission can continue, or if they’re ones linked to cancer that may require immediate care back on Earth,” thecontinued. “It’s the ultimate test of telemedicine that’s being eyed for remote locations worldwide as well.”
As essential as this work is, it also generates enormous amounts ofpower provided by Azure. “Sequencing a single human genome, about six billion characters, generates about 200 gigabytes of raw data, and the Spaceborne Computer-2 is only allotted two hours of communication bandwidth a week for transmitting data to Earth, with a maximum of 250 kilobytes per second,” said Microsoft.
“That’s less than 2 gigabytes a week – not even enough to download a Netflix movie – meaning it would take two years to transmit just one genomic dataset.”
To side-step this, the supercomputer scours the genome data onboard the ISS for anomalies requiring further investigation and sends those segments down to the Azure cloud for further analysis.
“From there, scientists anywhere in the world can use theto run their algorithms for analysis and decisions, accessing millions of computers running in parallel and linked by 165,000 miles of fiber optic cables connecting Azure datacentres scattered throughout 65 regions around the globe.”
The supercomputer has been used to carry out four experiments, Microsoft confirmed, with other projects, including one designed to analyze crops grown onboard the ISS to see how they are trying to grow in a zero-gravity environment.
And that these experiments are being carried out using “off-the-shelf” technologies from the likes of HPE and Microsoft is part of a broader trend contributing to space travel and experimentation becoming increasingly accessible to more people, the company said.
“Space is going through a major transformation period,” said Steve Kitay, who heads up the. “It has historically been an environment dominated by major states and governments because building and launching space systems was so expensive. But now is rapid commercialization of space that’s opening up new opportunities for many more actors.”