Algorithm Slashes Compute Time for Low Radiation Dose Scans from 100 Hours per Image to Less Than an Hour
GE’s “Veo” scanner technology helps lower patients’ radiation exposure. Courtesy of GE Health (Flickr photo)
In a hospital emergency room, standard CT scanners can quickly look over the affected area, and in less than 5 minutes generate images of the inside of a patient’s body, helping doctors make life-saving decisions.
But there’s a catch, says Dr. Ella Kazerooni, a professor of radiology at the University of Michigan Medical School: “The radiation dose for a standard chest CT scan is equal to about 70 chest X-rays.”
That may be OK when it’s a desperate life-or-death emergency, but what about when doctors need to take regular CT scans of a small child with a long-term disease such as lymphoma, or an adult with a brain tumor android outlook images? The amounts of total X-ray radiation such patients may be exposed to could quickly reach levels that could elevate their risk of cancer.
In those cases, doctors can use CT scans with very low doses of X-ray radiation that dramatically reduce the patient’s cancer risk.
But when they do that, there’s yet another catch: It takes lots of time, and huge amounts of computing power, to turn the smaller dataset from a low-dose scan into a usable medical image aimbot fortnite downloaden. We’re talking not hours but four to five days of computing time on mainframe-equivalent computers to come up with a workable image. For many doctors and hospitals, both the computer power needed and the long delay to get an image have made low-dose scans impractical.
One leading CT scanner vendor, General Electric, was determined to crack that challenge. “It was one of the grand challenges of medicine: How could we crack this problem to yield better images at dramatically lower X-ray power settings, and in less time?” said David Baker, an Intel engineer who worked on the problem pokerstars downloaden op ipad.
Cracking the Code
The answer to the question Baker posed lay in a set of mathematical rules called an algorithm.
“For scanners, the secret sauce is in the algorithm that generates the images,” said Intel’s Steven Johnson. The problem was that a promising algorithm for creating an image — known as Model-Based Iterative Reconstruction — was enormously complex and carrying it out could bog down even the most modern computers wie kann man netflix auf dem fernseher herunterladen.
In 2006, Johnson said, GE approached Intel: “They said, ‘We have this algorithm, but we can’t get it to a point where we can get an image in the amount of time that anyone would find useful.'”
That was the beginning of a years-long struggle by Intel and GE to achieve an audacious goal: to bring the compute time to get an image from a low-dose CT scan down from 100 hours per image to less than 1 hour — an improvement of 100x.
Intel application engineers Terry Sych, Kirk Dunsavage and Kerry Evans formed a small team that pursued ways to optimize the algorithm for processing sniper elite download vollversion kostenlos.
Fine-Tuning Software to Save Lives
“It was a multi-year effort,” Sych recalled. “There was a lot of fine tuning. It got down to counting individual clock cycles for each step of the algorithm.” It was difficult, for example, to change the algorithm, which worked best in a single-threaded environment, into one that could take advantage of multi-core processors hp support assistant herunterladen.
It also helped that while this effort was going on, Intel’s “tick-tock” processor strategy went through two generations. By 2010, Intel had a whole new generation of Xeon processors, which were still socket- compatible with previous Xeon processors.
“That was important,” Johnson said smileys iphone. “GE wanted a solution that they knew they could count on for at least 7 years.”
As Baker described the breakthrough, “The joint team ultimately developed an accelerator based on 28 Xeon processors totaling 112 cores and a dramatically improved algorithm. We reduced the compute time to around an hour, delivering superior medical images and reducing the X-ray power by up to 90 percent.”
Dramatic Reduction in X-Ray Exposure
GE calls the new scanning technology “Veo.” Part of the company’s line of Discovery Scanners, it was introduced in Europe last year and was approved by the U.S eine webseite herunterladen. Food and Drug Administration.
“We have been able to reduce X-ray doses to previously unthinkable levels,” said Professor Johan de Mey, head of the radiology department of University Hospital in Brussels, Belgium. That is opening up the benefits of CT scans to a wider variety of patients.
Evgeny Drapkin, a principal engineer at GE Health, said that exposure levels for scans done with the Veo machines have been reduced by 4x.
Baker declared, “Kids who have long-term diseases, who have to get regular CT scans to check the progress of the disease, can often approach their lifetime limit of exposure to X-rays. With the Veo scanner they can dial down the X-ray power and dramatically extend the number of times they can get a scan.”