research

Intergenerational solidarities for climate healing: the case for critical methodologies and decolonial research practices.

Children's Geographies; 01/09/2024
(AN 174729549); ISSN: 14733285
Academic Search Premier






research

'But, what is a researcher?' Developing a novel ethics resource to support informed consent with young children.

Children's Geographies; 06/01/2024
(AN 178088790); ISSN: 14733285
Academic Search Premier





research

The book history of Rona M. Fields’s A Society on the Run (1973): A case study in the alleged suppression of psychological research on Northern Ireland

Abstract The US psychologist Rona M. Field’s book A Society on the Run (1973) offered a psychological account of the nature and effects of the Northern Irish Troubles at their peak in the early 1970s. The book was withdrawn shortly after publication by its publisher, Penguin Books Limited, and never reissued. Fields alleged publicly that […]

The post The book history of Rona M. Fields’s A Society on the Run (1973): A case study in the alleged suppression of psychological research on Northern Ireland was curated by information for practice.




research

Use of Linked Administrative Adult Social Care Data for Research: A Scoping Review of Existing UK Studies

Abstract Administrative data provide unique coverage of populations using care and the use of new datasets and advancing digital technologies only contribute to this growing area. There are ongoing limitations in the linkage of administrative datasets, which for adult social care have been exacerbated by inconsistent coding and varied IT systems. The aim of this […]

The post Use of Linked Administrative Adult Social Care Data for Research: A Scoping Review of Existing UK Studies was curated by information for practice.



  • Meta-analyses - Systematic Reviews

research

To scope or not to scope? The benefits and challenges of integrating scoping studies in rapid qualitative research and evaluation

Publication date: February 2025 Source: Evaluation and Program Planning, Volume 108 Author(s): Syka Iqbal, Macarena Chepo, Marc Hébert, Cecilia Vindrola-Padros Read the full article ›

The post To scope or not to scope? The benefits and challenges of integrating scoping studies in rapid qualitative research and evaluation was curated by information for practice.



  • Meta-analyses - Systematic Reviews

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A 27‐year scoping review of practice and research in online counselor education

Abstract A scoping review of the online counselor education scholarship from 1997 to 2023 in 27 national and regional peer-reviewed counseling journals yielded a sample of 110 articles. Findings of the scoping review detailed the topics addressed, methodological features, key findings, and recommendations for practice and research. Read the full article ›

The post A 27‐year scoping review of practice and research in online counselor education was curated by information for practice.



  • Meta-analyses - Systematic Reviews













research

Notice of Intent to Publish a Funding Opportunity Announcement for Tobacco, Alcohol, and Cannabis Policy Research for Health Equity (R01 Clinical Trial Optional) [First Estimated Application Due Date: Feb 5]

The post Notice of Intent to Publish a Funding Opportunity Announcement for Tobacco, Alcohol, and Cannabis Policy Research for Health Equity (R01 Clinical Trial Optional) [First Estimated Application Due Date: Feb 5] was curated by information for practice.








research

Negative performance feedback from algorithms or humans? effect of medical researchers’ algorithm aversion on scientific misconduct

Institutions are increasingly employing algorithms to provide performance feedback to individuals by tracking productivity, conducting performance appraisals, and developing improvement plans, compared to trad… Read the full article ›

The post Negative performance feedback from algorithms or humans? effect of medical researchers’ algorithm aversion on scientific misconduct was curated by information for practice.



  • Open Access Journal Articles

research

Research Internship 2021 - Enablement, Interns/Students, Cambridge, UK, Research

Arm has fuelled the smartphone revolution by creating clever compute power that fits in your pocket. Would you like to be part of the next revolution? Our internship programme is now open for applications! We want to hear from curious and enthusiastic candidates interested in working with us on the future generations of compute.

About Arm and Arm Research

As the industry's leading supplier of microprocessor technology, Arm provides efficient, low-power chip intelligence making affordable, easy-to-use electronic innovations come to life. Our engineers design and develop CPUs, graphics processors, complex system IP, supporting software development tools, and physical libraries.

Our research activities cover many different fields: from mobile and personal computing, to server, cloud, and HPC computing. Our work and our researchers span a wide range of backgrounds from circuits to theoretical computer science. We all share a passion for learning and creating.

As an intern, you will get a first-hand view of how Arm crafts its technology and maintains an ecosystem of more than one thousand partners that ship over 10 billion leading-edge Arm-powered processors each year.

About the Research Enablement team

Our Enablement team covers engagements with Tier 1 universities and research organizations. We make Arm technology available to them for academic research, and we also develop teaching materials and kits to accelerate research and reduce development time. We work with partners on government funded research projects coving everything from methodology, automation and security to IP research and development.

Our team would welcome internship applications from candidates keen on delivering novel solutions to complex problems and deploying them to aid academia. In particular, the successful intern will be looking at how to extract power information from unit and system models to build up an approximation of the power usage of a complete system using different applications. This will involve modelling internal components in C++/ LISA to be integrated into existing FVP models. Other available debug tools like Iris/CADI can be exploited and tailored to collect valuable power consumption information.




research

Research Intern 2021 - Security & Large Scale Systems (SLSS), Interns/Students, Cambridge, UK, Research


Research Internships 2021 – SLSS

Arm is the industry's leading supplier of microprocessor technology providing efficient, low-power chip intelligence making electronic innovations come to life.  Through our partners, our designs power everything from coffee machines to the fastest supercomputer in the world. Do you want to work on technology that enriches the lives of over 70% of the world’s population?   Our internship programme is now open for applications! We want to hear from curious and enthusiastic candidates interested in working with us on the future generations of compute.

About Arm and Arm Research

Arm plays a key role in our increasingly connected world. Every year, more than 20 billion products featuring Arm technology are shipped.  Our engineers design and develop CPUs, graphics processors, complex system technologies, supporting software development tools, and physical libraries.

At Arm Research, we develop new technology that can grow into new business opportunities. We keep Arm up to speed with recent technological developments by pursuing blue-sky research programmes, collaborating with academia, and integrating emerging technologies into the wider Arm ecosystem.  Our research activities cover a wide range of fields from mobile and personal computing to server, cloud, and HPC computing. Our work and our researchers span a diverse range from circuits to theoretical computer science. We all share a passion for learning and creating.

About the software and large-scale systems group and our work

The Software and Large-Scale Systems Research works on distributed systems, edge computing, compute-in-memory, and computer-in-network among other subjects. We are interested in High Performance Computing, Computational Engineering, and High-Performance Data Analytics.

Through our work we try to address three main questions: How do we balance hardware diversity with the software ecosystem? How do we evolve ARM technology to be relevant at large-scale (scale-up as well as scale-out)? What is the necessary infrastructure for evaluating large scale systems (in the absence of hardware)?

Our research is currently focussed on two threads. One is developing IoT Gateway Reference Design and Proof of concept deployments around various edge use cases (Cities, Agriculture, Rural, Telco). The second one is exploring edge computing, networking, and data centre scale cluster solutions.


 

 




research

Research Intern 2021 - Security, Interns/Students, Cambridge, UK, Research


Research Internships 2021 – Security

Arm is the industry's leading supplier of microprocessor technology providing efficient, low-power chip intelligence making electronic innovations come to life.  Through our partners, our designs power everything from coffee machines to the fastest supercomputer in the world. Do you want to work on technology that enriches the lives of over 70% of the world’s population?   Our internship programme is now open for applications! We want to hear from curious and enthusiastic candidates interested in working with us on the future generations of compute.

About Arm and Arm Research

Arm plays a key role in our increasingly connected world. Every year, more than 20 billion products featuring Arm technology are shipped.  Our engineers design and develop CPUs, graphics processors, complex system technologies, supporting software development tools, and physical libraries.

At Arm Research, we develop new technology that can grow into new business opportunities. We keep Arm up to speed with recent technological developments by pursuing blue-sky research programmes, collaborating with academia, and integrating emerging technologies into the wider Arm ecosystem.  Our research activities cover a wide range of fields from mobile and personal computing to server, cloud, and HPC computing. Our work and our researchers span a diverse range from circuits to theoretical computer science. We all share a passion for learning and creating.

About our group and our work

The Arm Research Security Group works to "develop technology worthy of the trust that we place in it." We are not a "red team" identifying and publishing vulnerabilities in systems or suggesting point-fixes, but rather we seek to develop techniques and tools that eliminate large classes of vulnerabilities outright. To do this, we have projects broadly focussed on three research areas:

Security. How can we implement systems that remain secure even in the face of well-organised and extraordinarily imaginative adversaries? In this area we are looking at, for example, designing "responsive hardware" that can spot and react to early signs of security threats. We are also looking into how an emerging set of post-quantum ciphers can be efficiently implemented on power-constrained Arm microcontrollers.

Correctness. Can hardware and software systems be designed so that they are correct by construction? And what does "correct" even mean? We are currently trying to establish provable security properties for future extensions of the Arm architecture, and we recently started a collaboration with academics who are applying mathematical techniques to spot Spectre-like bugs in hardware designs.

Privacy. How can emerging technologies increase the privacy of computations and data? We are investigating how trusted hardware and remote attestation protocols can be used to implement efficient secure-multiparty computations. We are collaborating with academic partners around the design and implementation of hardware acceleration for homomorphic encryption. Other ongoing projects look at using the high assurance seL4 Operating System to ensure security and privacy on untrustworthy Edge devices.


 

 

 

 




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Research Intern 2021 - General, Interns/Students, Cambridge, UK, Research


 

Research Internships 2021 – Generic

Arm has fuelled the smartphone revolution by creating clever compute power that fits in your pocket. Would you like to be part of the next revolution? Our internship programme is now open for applications! We want to hear from curious and enthusiastic candidates interested in working with us on the future generations of compute.  

About Arm and Arm Research 

As the industry's leading supplier of microprocessor technology, Arm provides efficient, low-power chip intelligence making affordable, easy-to-use electronic innovations come to life. Our engineers design and develop CPUs, graphics processors, complex system IP, supporting software development tools, and physical libraries. 

Our research activities cover a wide range of fields: from mobile and personal computing, to server, cloud, and HPC computing. Our work and our researchers span a diverse background from circuits to theoretical computer science. We all share a passion for learning and creating.  

As an intern, you will get a first-hand view of how Arm crafts its technology and maintains an ecosystem of more than one thousand partners that ship over 10 billion leading-edge Arm-powered processors each year. 

About our groups and our work 

We are offering internships in the following broad fields: 

  • Computer Architecture 
  • Devices, Chips, and Silicon 
  • Machine Learning 
  • Security 
  • Software and Large-Scale Systems 

 


  

 

 

 




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Research Intern 2021 - Devices, Circuits & Systems, Interns/Students, Cambridge, UK, Research



Research Internships 2021 – DCS

Arm is the industry's leading supplier of microprocessor technology providing efficient, low-power chip intelligence making electronic innovations come to life.  Through our partners, our designs power everything from coffee machines to the fastest supercomputer in the world. Do you want to work on technology that enriches the lives of over 70% of the world’s population?   Our internship programme is now open for applications! We want to hear from curious and enthusiastic candidates interested in working with us on the future generations of compute.

About Arm and Arm Research

Arm plays a key role in our increasingly connected world. Every year, more than 20 billion products featuring Arm technology are shipped.  Our engineers design and develop CPUs, graphics processors, complex system technologies, supporting software development tools, and physical libraries.

At Arm Research, we develop new technology that can grow into new business opportunities. We keep Arm up to speed with recent technological developments by pursuing blue-sky research programmes, collaborating with academia, and integrating emerging technologies into the wider Arm ecosystem.  Our research activities cover a wide range of fields from mobile and personal computing to server, cloud, and HPC computing. Our work and our researchers span a diverse range from circuits to theoretical computer science. We all share a passion for learning and creating.

About the devices, circuits and systems group and our work

We are looking for interns to join our Devices, Circuits and Systems Research team; we want to hear from candidates interested in delivering post-Moore scaling and pushing compute past the limits of power, cost, and performance. Our research activities cover a wide range of chip design challenges such as:

  • Delivering power to multi-GHz processors
  • Crafting performant and energy-efficient systems with emerging post-Moore memory and switching devices
  • 3D stacking
  • Designing microwatt sub-threshold microcontrollers
  • Realising 1 cent disposable printed electronics
  • Prototyping battery-less sensor nodes.


 


  

 




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Research Intern 2021 - Architecture, Interns/Students, Cambridge, UK, Research


 

Research Internships 2021 – Architecture

Arm is the industry's leading supplier of microprocessor technology providing efficient, low-power chip intelligence making electronic innovations come to life.  Through our partners, our designs power everything from coffee machines to the fastest supercomputer in the world. Do you want to work on technology that enriches the lives of over 70% of the world’s population?   Our internship programme is now open for applications! We want to hear from curious and enthusiastic candidates interested in working with us on the future generations of compute.

About Arm and Arm Research

Arm plays a key role in our increasingly connected world. Every year, more than 20 billion products featuring Arm technology are shipped.  Our engineers design and develop CPUs, graphics processors, complex system technologies, supporting software development tools, and physical libraries.

At Arm Research, we develop new technology that can grow into new business opportunities. We keep Arm up to speed with recent technological developments by pursuing blue-sky research programmes, collaborating with academia, and integrating emerging technologies into the wider Arm ecosystem.  Our research activities cover a wide range of fields from mobile and personal computing to server, cloud, and HPC computing. Our work and our researchers span a diverse range from circuits to theoretical computer science. We all share a passion for learning and creating.

About the architecture group and our work

As a research group focussed on architecture, we work at the boundary of software and hardware; we analyse novel applications and use-cases to invent ways of improving their performance, security, efficiency, or ease of use. This can be through instruction set enhancements, memory system optimisation, or even ground-breaking alterations to the underlying micro-architecture of fundamental compute elements while also considering power efficiency, area, compiler targetability, and related objectives.

Are you passionate about dreaming up innovations that have the potential to change the future of compute? We are offering internships across the computer architecture stack, such as:

  • Analysis and categorisation of new / novel applications through to the design of efficient instruction set and micro-architecture for handling these applications.
  • Implications of upcoming byte-addressable, non-volatile memories, and other data storage technologies.
  • Security, encryption, and integrity protection in the core, system, or memory hierarchy.
  • Micro-architecture innovations enabling new generations of cores, caches, predictive structures, accelerators, and more.
  • Compute-near-data abstractions, and data-movement-optimised memory hierarchies.
  • Improving our formal verification methods, to be more efficient and more effective at finding bugs earlier in the design cycle.

 




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Part Time Undergraduate - Education and Research Enablement Development Engineer, Part-time Undergraduate, Cambridge, UK, Research

Part Time Undergraduate (with first year as full-time placement) - Arm Education and Research Enablement Development Engineer

Arm has fuelled the smartphone revolution by creating clever compute power that fits in your pocket. Would you like to be part of the next revolution? Our programme is now open for applications! We want to hear from curious and enthusiastic candidates interested in working with us on the future generations of compute.

About Arm and Arm Education

As the industry's leading supplier of microprocessor technology, Arm provides efficient, low-power chip intelligence making affordable, easy-to-use electronic innovations come to life. Our engineers design and develop CPUs, graphics processors, complex system IP, supporting software development tools, and physical libraries.

The Arm Education and Research Enablement offers high quality teaching and training materials to universities worldwide, and we are now seeking a Part Time Undergraduate to work with us in developing our offer. Your work will involve creating courseware to aid teaching based on Arm and partner technologies, as well as supporting technical customer inquiries. You will also develop software tools for automation, and work with internal and external partners to guarantee accurate legal and quality standards.




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Intern, Research - Software Architecture, Interns/Students, Austin (TX), USA, Research

Arm is the industry's leading supplier of microprocessor technology providing efficient, low-power chip intelligence making electronic innovations come to life.  Through our partners, our designs power everything from coffee machines to the fastest supercomputer in the world. Do you want to work on technology that enriches the lives of over 70% of the world’s population?   Our internship program is now open for applications! We want to hear from curious and enthusiastic candidates interested in working with us on the future generations of compute. 

About Arm and Arm Research 

Arm plays a key role in our increasingly connected world. Every year, more than 20 billion products featuring Arm technology are shipped.  Our engineers design and develop CPUs, graphics processors, complex system technologies, supporting software development tools, and physical libraries. 

At Arm Research, we develop new technology that can grow into new business opportunities. We keep Arm up to speed with recent technological developments by pursuing blue-sky research programs, collaborating with academia, and integrating emerging technologies into the wider Arm ecosystem.  Our research activities cover a wide range of fields from mobile and personal computing to server, cloud, and HPC computing. Our work and our researchers span a diverse range from circuits to theoretical computer science. We all share a passion for learning and creating. 

About our software architecture research 

Our software architecture research focuses on distributed systems, edge computing, compute-in-memory, and computer-in-network among other subjects. We also research computational engineering and high-performance data analytics 

Through our work we try to address three main questions: How do we balance hardware diversity with the software ecosystem? How do we evolve Arm technology to be relevant at large-scale (scale-up as well as scale-out)? What is the necessary infrastructure for evaluating large scale systems (in the absence of hardware)? 

Our research is currently focussed on two threads. One is developing IoT Gateway Reference Design and Proof of concept deployments around various edge use cases (Cities, Agriculture, RuralTelco). The second one is exploring edge computing, networking, and data centre scale cluster solutions 

 




research

Intern, Research - Security, Interns/Students, Austin (TX), USA, Research

Arm is the industry's leading supplier of microprocessor technology providing efficient, low-power chip intelligence making electronic innovations come to life.  Through our partners, our designs power everything from coffee machines to the fastest supercomputer in the world. Do you want to work on technology that enriches the lives of over 70% of the world’s population?   Our internship program is now open for applications! We want to hear from curious and enthusiastic candidates interested in working with us on the future generations of compute.  

About Arm and Arm Research 

Arm plays a key role in our increasingly connected world. Every year, more than 20 billion products featuring Arm technology are shipped.  Our engineers design and develop CPUs, graphics processors, complex system technologies, supporting software development tools, and physical libraries. 

At Arm Research, we develop new technology that can grow into new business opportunities. We keep Arm up to speed with recent technological developments by pursuing blue-sky research programs, collaborating with academia, and integrating emerging technologies into the wider Arm ecosystem.  Our research activities cover a wide range of fields from mobile and personal computing to server, cloud, and HPC computing. Our work and our researchers span a diverse range from circuits to theoretical computer science. We all share a passion for learning and creating. 

About our group and our work 

The Arm Research Security Group works to "develop technology worthy of the trust that we place in it." We are not a "red team" identifying and publishing vulnerabilities in systems or suggesting point-fixes, but rather we seek to develop techniques and tools that eliminate large classes of vulnerabilities outright. To do this, we have projects broadly focussed on three research areas: 

Security. How can we implement systems that remain secure even in the face of well-organised and extraordinarily imaginative adversaries? In this area we are looking at, for example, designing "responsive hardware" that can spot and react to early signs of security threats. We are also looking into how an emerging set of post-quantum ciphers can be efficiently implemented on power-constrained Arm microcontrollers.  

Correctness. Can hardware and software systems be designed so that they are correct by construction? And what does "correct" even mean? We are currently trying to establish provable security properties for future extensions of the Arm architecture, and we recently started a collaboration with academics who are applying mathematical techniques to spot Spectre-like bugs in hardware designs.  

Privacy. How can emerging technologies increase the privacy of computations and data? We are investigating how trusted hardware and remote attestation protocols can be used to implement efficient secure-multiparty computations. We are collaborating with academic partners around the design and implementation of hardware acceleration for homomorphic encryption. Other ongoing projects look at using the high assurance seL4 Operating System to ensure security and privacy on untrustworthy Edge devices.  

 




research

Intern, Research - Machine Learning, Interns/Students, Austin (TX), USA, Research

Arm is the industry's leading supplier of microprocessor technology providing efficient, low-power chip intelligence making electronic innovations come to life.  Through our partners, our designs power everything from coffee machines to the fastest supercomputer in the world. Do you want to work on technology that enriches the lives of over 70% of the world’s population?   Our internship program is now open for applications! We want to hear from curious and enthusiastic candidates interested in working with us on the future generations of compute. 

About Arm and Arm Research 

Arm plays a key role in our increasingly connected world. Every year, more than 10 billion products featuring Arm technology are shipped.  Our engineers design and develop CPUs, graphics processors, neural net accelerators, complex system technologies, supporting software development tools, and physical libraries. 

At Arm Research, we develop new technology that can grow into new business opportunities. We keep Arm up to speed with recent technological developments by pursuing blue-sky research programs, collaborating with academia, and integrating emerging technologies into the wider Arm ecosystem.  Our research activities cover a wide range of fields from mobile and personal computing to server, cloud, and HPC computing. Our work and our researchers span a diverse range from circuits to theoretical computer science. We all share a passion for learning and creating.  

About our Machine Learning group and our work 

Arm’s Machine Learning Research Lab delivers underlying ML technology that enables current and emerging applications across the full ML landscape, from data centers to IoT. Our research provides the building blocks to deliver industry-leading hardware and software solutions to Arm’s partners.  

Our ML teams in Austin and Boston focus on algorithmic and hardware/software co-design to provide top model accuracy while optimizing for constrained environments. This includes defining the architecture and training of our own DNN and non-DNN custom machine learning models, optimizing and creating tools to improve existing state-of-the-art models, exploring techniques for compressing models, transforming data for efficient computation, and enabling new inference capabilities at the edge. Our deliverables include: models, algorithms for compression, library optimizations based on computational analysis, network architecture search (NAS) tools, benchmarking and performance analysis, and ideas for instruction set architecture (ISA) and accelerator architectures. 

We are looking for interns to work with us in key application areas like applied machine learning for semi-conductor design and verification, autonomous driving (ADAS), computer vision (CV), object detection and tracking, motion planning, and simultaneous localization and mapping (SLAM). As a team we are very interested in researching and developing ML techniques that translate into real products and applications; our interns will help us determine which aspects of fundamental ML technology will be meaningful to next generation applications.  

It would be an advantage if you have experience or knowledge in any or some of the following areas:  

  • Foundational Machine Learning technology including algorithms, models, training, and optimisation 

  • Concepts like CNN, RNN, Self-supervised Learning, Federated Learning, Bayesian inference, etc. 

  • ML frameworks (TensorFlow, PyTorch, GPflow, PyroScikit-learn, etc.) and strong programming skills  

  • CPU, GPU, and NN accelerator micro-architecture 

 




research

Intern, Research - Hardware Architecture, Interns/Students, Austin (TX), USA, Research

Arm is the industry's leading supplier of microprocessor technology providing efficient, low-power chip intelligence making electronic innovations come to life.  Through our partners, our designs power everything from coffee machines to the fastest supercomputer in the world. Do you want to work on technology that enriches the lives of over 70% of the world’s population?   Our internship program is now open for applications! We want to hear from curious and enthusiastic candidates interested in working with us on the future generations of compute. 

 

About Arm and Arm Research 

Arm plays a key role in our increasingly connected world. Every year, more than 10 billion products featuring Arm technology are shipped.  Our engineers design and develop CPUs, graphics processors, complex system technologies, supporting software development tools, and physical libraries. 

At Arm Research, we develop new technology that can grow into new business opportunities. We keep Arm up to speed with recent technological developments by pursuing blue-sky research programs, collaborating with academia, and integrating emerging technologies into the wider Arm ecosystem.  Our research activities cover a wide range of fields from mobile and personal computing to server, cloud, and HPC computing. Our work and our researchers span a diverse range from circuits to theoretical computer science. We all share a passion for learning and creating.  

 

About our hardware architecture research 

We are seeking highly motivated interns to join the Arm Research group to work on a variety of cutting-edge research for spring, summer, or fall-term placements. This is an opportunity to work alongside friendly and welcoming researchers defining the next stages of the Arm architecture and systems, and meaningfully contribute to ideas that will be at the heart of an ecosystem of more than one thousand partners that ship over 20 billion leading-edge Arm-powered processors each year. 

 

Our architecture and systems research activities cover a wide range of disciplines including mobile and personal computing and applications; server, cloud, and HPC computing; emerging memory technologies; interconnects; throughput and vector computing; exploiting parallelism with vector, SIMD, throughput, and multicore architecture.  We are looking for interns that are passionate about dreaming up innovations with the potential to change the future of compute. 

 




research

Intern, Research - Devices, Circuits, and Systems, Interns/Students, Austin (TX), USA, Research

rm is the industry's leading supplier of microprocessor technology providing efficient, low-power chip intelligence making electronic innovations come to life.  Through our partners, our designs power everything from coffee machines to the fastest supercomputer in the world. Do you want to work on technology that enriches the lives of over 70% of the world’s population?   Our internship program is now open for applications! We want to hear from curious and enthusiastic candidates interested in working with us on the future generations of compute.  

About Arm and Arm Research 

Arm plays a key role in our increasingly connected world. Every year, more than 20 billion products featuring Arm technology are shipped.  Our engineers design and develop CPUs, graphics processors, complex system technologies, supporting software development tools, and physical libraries. 

At Arm Research, we develop new technology that can grow into new business opportunities. We keep Arm up to speed with recent technological developments by pursuing blue-sky research programs, collaborating with academia, and integrating emerging technologies into the wider Arm ecosystem.  Our research activities cover a wide range of fields from mobile and personal computing to server, cloud, and HPC computing. Our work and our researchers span a diverse range from circuits to theoretical computer science. We all share a passion for learning and creating. 

About the devices, circuits and systems group and our work 

We are looking for interns to join our Devices, Circuits and Systems Research team; we want to hear from candidates interested in delivering post-Moore scaling and pushing compute past the limits of power, cost, and performance. Our research activities cover a wide range of chip design challenges such as: 

  • Delivering power to multi-GHz processors 

  • Crafting performant and energy-efficient systems with emerging post-Moore memory and switching devices 

  • 3D stacking 

  • Designing microwatt sub-threshold microcontrollers 

  • Realising 1 cent disposable printed electronics 

  • Prototyping battery-less sensor nodes  




research

Graduate Image Processing R & D Engineer, Graduates, Manchester, UK, Research

About the Role
As an Imaging R&D Graduate, you will be joining the ISP team within Arm, which develops and designs image processing technology that is used in a range of applications including automobiles, security cameras, and drones. The algorithm development team is tasked with solving a variety of image processing problems, from denoise to demosaic, auto-exposure to motion compensation. Our algorithms must satisfy the competing demands of high image quality, and efficient, low-power hardware implementation.

This is an opportunity to contribute towards the next generation of imaging systems, for both human viewing and autonomous driving applications.

Why should you apply?

  • You want to work in leading digital imaging technology.
  • You have a keen interest in imaging or image processing, which you would like to develop into a career.
  • You want to see tangible results from your work.
  • You want to have the opportunity to learn from the best engineers and start a career in a leading imaging and vision technology group.

What will I be accountable for?

  • Working with image quality experts to determine requirements for processing.
  • Developing new image processing algorithms, often from early concept phase and typically in a mathematical modelling environment.
  • Implementing novel algorithms, starting from a floating-point model
  • Testing and benchmarking of the results, working closely with our image quality experts.
  • Collaborating with the wider engineering team to arrive at an architecture and fixed-point model of your algorithm, optimized for hardware or software implementation













research

Neo-Malthusians and scientific research

Green New Deal are three words that have acquired great notoriety in recent times and seem to finally be the answer to the increasingly pressing requests coming from the variegated environmental world. The fear that our planet will undergo an ecological collapse that makes it an uninhabitable hell for humanity and the rest of living creatures, be they animals or plants, has prompted a part of Western society to reconsider its priorities and way of living. A part that is not very large, to be honest, but that has received a lot of attention from media, celebrities, no-profit foundations and now also from some governments. Apparently, the new green revolution will guarantee us a bright future. Drastically reduced industrial pollution, zero-emission cars, super-efficient homes and workplaces, heated and powered by the energy of the sun: these are just some of the promises, written with fire on the rock, the realization of which will give us a new Garden of Eden planetary in size. But will it really be like this? Some of the visionary benefactors who are heralds for these fabulous ideas continue to insist that the Earth is overpopulated and that it would be better to return to the situation of the early twentieth century, when the population on our planet was about a quarter of what it is today. The question then arises spontaneously on how to get back to that level quickly, with what methods and with what results.