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UCSB Receives Massive Raspberry Pi Cluster for IoT Research
SANTA BARBARA, Calif. – A cluster of 1,050 Raspberry pi 3ipb+ computers, originally built by Oracle to showcase the capabilities of simple technology, has found a new home at the university of California, Santa Barbara (UCSB).
Donation Fuels Internet of Things Studies
Computer science professors Chandra Krintz and Rich Wolski accepted the donation after Oracle retired the cluster from its exhibition circuit. The cluster is believed to be the largest of its kind, dwarfing even the second-largest, assembled at Los alamos National Laboratory.
Wolski, holder of the Duval Family Presidential Chair in Energy Efficiency, explained the significance of the Raspberry Pi. “The Raspberry Pi was designed to operate with the Internet of Things (IoT),” he said. “It is used for experimentation and deployment of relatively basic systems.” He noted the devices are inexpensive and energy-efficient, programmable with free software, and compatible with various hardware and sensors.
From Trade show Demo to Research Powerhouse
While individually thes credit-card-sized computers have limited performance, Oracle initially assembled the cluster to demonstrate its software’s ability to operate on a large scale with minimal energy consumption.
“Oracle wanted to show it could also do very small things, and this in a very effective way,” Wolski said. After serving its purpose, the cluster sat in storage until a visit from Oracle Research led to its donation to UCSB.
Wolski recounted the conversation: “One day,the director of Oracle Research came to visit our laboratory… He took a look at our little collection and said to us: Do you need more raspberry Pis?”
he added with a laugh, “If you are an academic and someone asks you ‘Can I give you something?’, the answer is always ‘Yes, absolutely, without hesitation.'”
Collaboration and Adaptation
Chris Benson, a former Oracle engineer now at Lawrence Livermore National Laboratory, assisted Krintz and Wolski in setting up the system. Krintz noted Benson’s invaluable help in adapting the cluster for a public, institutional environment with open-source software.
“Chris assembled technology in a way that had never been done before,” krintz said. ”She arrived at the end of his life and can now continue to serve research and teaching IT at the UCSB.”
Cooling Challenges and Solutions
The cluster’s size presented unique challenges, particularly in cooling. Henley Hall, home to UCSB’s Institute for Energy Efficiency (IEE), relies primarily on natural air cooling. The professors initially anticipated receiving a much smaller number of Raspberry Pis.
“We initially thought of receiving 10 or 20 Raspberry Pis, 50 maximum. But we received 1,050!” Wolski said.
john Bowers,director of the IEE,emphasized the chance the cluster presents. “Oracle has built this Raspberry Pi cluster to demonstrate its ability to use a relatively simple technology to operate its very complex software, which shows how lucky we are to have this same cluster – the largest in the world – to the UCSB,” Bowers said. “I can’t wait to see what Chandra and Rich will do with it, both in terms of research and as regards the enormous opportunity he offers to study the internet of Things on an unrivaled scale in perhaps any other university.”
Krintz and Wolski have since implemented overheating protection measures, including email and text message alerts triggered by rising room temperatures. “We use our own research system on the Internet of Objects to monitor the system, which has never been designed to operate unattended 24 hours a day,” Wolski said.
Research Applications and the Future of IoT
Krintz explained the cluster’s role in their research: “Today, as part of our research efforts, we are trying to understand what the creation of a long-lived and low energy consumption center means creating a data center.” Their work includes developing intelligent programming techniques that balance tasks based on thermal considerations and adapt to voltage level changes.
The professors’ Racelab (The Lab for Research on Adaptive Computing aroundments) focuses on studying the IoT from a systemic perspective. Krintz noted the need for energy-efficient computing infrastructure in unconventional locations, such as homes and businesses.
UCSB Receives Massive Raspberry Pi Cluster for IoT Research
SANTA BARBARA, Calif. – A cluster of 1,050 Raspberry pi 3ipb+ computers, originally built by Oracle to showcase the capabilities of simple technology, has found a new home at the university of California, Santa Barbara (UCSB).
Donation fuels Internet of Things Studies
Computer science professors Chandra Krintz adn Rich Wolski accepted the donation after oracle retired the cluster from its exhibition circuit.The cluster is believed to be the largest of its kind, dwarfing even the second-largest, assembled at Los alamos National laboratory.
Wolski, holder of the duval Family Presidential Chair in Energy Efficiency, explained the meaning of the Raspberry Pi. “the Raspberry Pi was designed to operate with the Internet of Things (IoT),” he said. “It is used for experimentation and deployment of relatively basic systems.” He noted the devices are inexpensive and energy-efficient, programmable with free software, and compatible with various hardware and sensors.
From Trade show Demo to Research Powerhouse
While individually thes credit-card-sized computers have limited performance, Oracle initially assembled the cluster to demonstrate its software’s ability to operate on a large scale with minimal energy consumption.
“Oracle wanted to show it could also do very small things,and this in a very effective way,” Wolski said. After serving its purpose,the cluster sat in storage until a visit from Oracle Research led to its donation to UCSB.
Wolski recounted the conversation: “One day,the director of Oracle Research came to visit our laboratory… He took a look at our little collection and said to us: Do you need more raspberry Pis?”
he added with a laugh,”If you are an academic and someone asks you ‘Can I give you something?’,the answer is always ‘Yes,absolutely, without hesitation.'”
Collaboration and Adaptation
Chris Benson, a former Oracle engineer now at Lawrence Livermore National Laboratory, assisted Krintz and Wolski in setting up the system. Krintz noted Benson’s invaluable help in adapting the cluster for a public,institutional environment with open-source software.
“Chris assembled technology in a way that had never been done before,” krintz said. ”She arrived at the end of his life and can now continue to serve research and teaching IT at the UCSB.”
Cooling Challenges and Solutions
The cluster’s size presented unique challenges, notably in cooling. Henley Hall, home to UCSB’s Institute for energy Efficiency (IEE), relies primarily on natural air cooling. The professors initially anticipated receiving a much smaller number of Raspberry Pis.
“We initially thought of receiving 10 or 20 Raspberry Pis, 50 maximum. But we received 1,050!” Wolski said.
john Bowers,director of the IEE,emphasized the chance the cluster presents. “oracle has built this Raspberry Pi cluster to demonstrate its ability to use a relatively simple technology to operate its very complex software, which shows how lucky we are to have this same cluster – the largest in the world – to the UCSB,” Bowers said. “I can’t wait to see what Chandra and Rich will do with it, both in terms of research and as regards the enormous possibility he offers to study the internet of Things on an unrivaled scale in perhaps any other university.”
krintz and Wolski have since implemented overheating protection measures, including email and text message alerts triggered by rising room temperatures. “We use our own research system on the Internet of Objects to monitor the system, which has never been designed to operate unattended 24 hours a day,” Wolski said.
Research Applications and the future of IoT
Krintz explained the cluster’s role in their research: “Today, as part of our research efforts, we are trying to understand what the creation of a long-lived and low energy consumption center means creating a data center.” their work includes developing bright programming techniques that balance tasks based on thermal considerations and adapt to voltage level changes.
The professors’ Racelab (The Lab for Research on Adaptive Computing aroundments) focuses on studying the IoT from a systemic viewpoint. krintz noted the need for energy-efficient computing infrastructure in unconventional locations, such as homes and businesses.
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UCSB’s Massive Raspberry Pi Cluster: Fueling the Future of IoT research
The University of California, Santa Barbara (UCSB) is making waves in the world of Internet of Things (IoT) research, thanks to a groundbreaking acquisition: a massive cluster of Raspberry Pi computers. This Q&A-style blog post will delve deep into the story, explaining the significance of this donation and its potential impact.
Frequently Asked Questions About the UCSB Raspberry Pi Cluster
What exactly is the Raspberry Pi cluster, and why is it meaningful?
The cluster consists of 1,050 Raspberry Pi 3ipb+ computers. According to the article, UCSB received these computers after Oracle retired them from its exhibition circuit. this cluster is believed to be the largest of its kind, even dwarfing the second-largest cluster, which was assembled at los Alamos National Laboratory.
How did UCSB acquire this immense resource?
the cluster was donated by Oracle. The article mentions that after the cluster fulfilled its initial purpose of demonstrating Oracle’s software capabilities, it sat in storage.A visit from Oracle Research led to the generous donation to UCSB, as recounted by Professor Rich Wolski. He shared a humorous anecdote in the article, highlighting the academic response to such offers: “‘If you are an academic and someone asks you ‘Can I give you something?’, the answer is always ‘Yes, absolutely, without hesitation.'”
What is the primary purpose of the Raspberry Pi in the context of this research?
The Raspberry Pi is a pivotal tool for IoT research. As the article states, it was “designed to operate with the Internet of Things”.These devices are ideal for experimentation and deployment of relatively basic systems, thanks to their affordability, energy efficiency, and compatibility with various hardware and sensors. The original purpose of the Raspberry Pis was to demonstrate Oracle’s software’s capability to operate on a large scale while minimizing energy consumption, according to the provided article.
Learn more about the Raspberry Pi Foundation.
Who are the key researchers involved, and what are their roles?
Computer science professors Chandra Krintz and Rich Wolski are the driving forces behind this initiative, accepting the donation and spearheading the research. Chris Benson, a former Oracle engineer now at Lawrence Livermore National Laboratory, provided valuable assistance in adapting the cluster for a public, institutional setting. The article highlights Chris’s vital role, specifically her assistance in adapting the cluster for a public, institutional environment with open-source software.”
What were the biggest challenges in setting up and managing the cluster?
The size of the cluster presented a significant hurdle, particularly in terms of cooling. The article points out that “Henley Hall, home to UCSB’s Institute for Energy Efficiency (IEE), relies primarily on natural air cooling.” The professors initially anticipated a far smaller number of Raspberry Pis, which made managing the heat generated by such a large cluster a priority. They have since implemented protective measures,including email and text message alerts triggered by rising room temperatures,monitoring the system with “their own research system.”
How is the Raspberry Pi cluster being used to advance IoT research at UCSB?
The cluster is being used to investigate the creation of “a long-lived and low energy consumption center…creating a data center” according to the article. The research includes developing intelligent programming techniques that balance tasks based on thermal considerations and adapt to voltage level changes. This cluster facilitates the study of IoT from a systemic perspective, focusing on energy-efficient computing infrastructure in unconventional locations.
Check out UCSB’s Racelab for more details.
What does the future hold for IoT research at UCSB, given this new resource?
The article quotes John Bowers, director of the IEE, stating this cluster presents an “enormous opportunity…to study the Internet of things on an unrivaled scale in perhaps any other university.” Krintz and Wolski’s work has the potential to significantly impact the design, implementation, and deployment of IoT systems in our daily lives. This will inevitably lead to further study and experimentation into the rapidly evolving field of IoT.
Can you provide a brief summary or overview of the critical information?
UCSB has acquired a massive Raspberry Pi cluster from Oracle, comprised of 1,050 computers, to advance its Internet of Things research. This significantly enhances the university’s capacity to experiment, develop, and innovate in a rapidly growing technological domain, with a focus on challenges like energy efficiency and deployment. The cluster’s unique scale is the key to its potential impact.
Key Takeaways from the Article
- UCSB’s acquisition of a massive Raspberry Pi cluster marks a significant advancement in IoT research.
- The donation from Oracle provides unparalleled resources for experimentation.
- Professors Krintz and Wolski are spearheading research focused on energy efficiency and system optimization within the IoT landscape.
- The cluster presents unique challenges, primarily related to cooling, which the team is proactively addressing.
- UCSB is well-positioned to make substantial contributions to the future of IoT.
This blog post, using data from the primary article, provides an overview of the UCSB Raspberry Pi cluster and its critical implications for IoT research and growth.This exciting initiative shows the value of using simple technology to innovate new solutions to modern issues.
