This document provides a summary of the IBM POWER9 AC922 system with 6 GPUs. It includes details on the POWER9 processor which features 24 cores per die, an enhanced cache hierarchy up to 120MB, and on-chip accelerators. The AC922 system utilizes two POWER9 processors, supports up to 512GB memory via 16 DDR4 DIMMs, and has three Nvidia Volta GPUs per socket connected via NVLink 2.0. It also discusses the POWER ISA v3.0 instruction set and how POWER9 serves as a premier acceleration platform with technologies like CAPI, OpenCAPI, and NVLink.
Everything is changing from Health Care to the Automotive markets without forgetting Financial markets or any type of engineering everything has stopped being created as an individual or best-case scenario a team effort to something that is being developed and perfectioned by using AI and hundreds of computers.And even AI is something that we no longer can run in a single computer, no matter how powerful it is. What drives everything today is HPC or High-Performance Computing heavily linked to AI In this session we will discuss about AI, HPC computing, IBM Power architecture and how it can help develop better Healthcare, better Automobiles, better financials and better everything that we run on them
The document discusses IBM AI solutions on Power systems. It provides an overview of key features including OpenPOWER collaboration, IBM machine learning and deep learning solutions designed for faster results, and Power9 servers adopted by research institutions. It then discusses specific IBM Power systems like the IBM Power AC922 that are optimized for AI workloads through features like CPU-GPU NVLink and large model support in TensorFlow.
OpenPOWER Webinar on Machine Learning for Academic Research Ganesan Narayanasamy
The document discusses machine learning and deep learning techniques. It provides examples of different machine learning algorithms like decision trees, linear regression, neural networks and deep learning models. It also discusses applications of machine learning in areas like computer vision, natural language processing and bioinformatics. Finally, it talks about technologies that can help democratize machine learning like distributed computing frameworks and open source libraries.
IBM provides infrastructure to accelerate medical research tasks like genomics, molecular simulation, diagnostics, and quality inspection. This infrastructure delivers faster insights through high-performance data and AI deployed at massive scale on IBM Power Systems and Storage. Case studies show the infrastructure reduces time to results for tasks like processing millions of cryogenic electron microscope images from days to hours.
The document provides an overview of Watson Machine Learning Community Edition (WML-CE), an open source machine learning and deep learning platform from IBM. WML-CE includes frameworks like TensorFlow, PyTorch, and Caffe alongside IBM contributions like Large Model Support (LMS), Distributed Deep Learning (DDL), and SnapML. SnapML is a set of libraries that accelerate popular machine learning models across CPU and GPU in a distributed manner. The document highlights key SnapML features and performance advantages over other frameworks.
Snap ML is a machine learning framework for fast training of generalized linear models (GLMs) that can scale to large datasets. It uses multi-level parallelism across nodes and GPUs. Snap ML implementations include snap-ml-local for single nodes, snap-ml-mpi for multi-node HPC environments, and snap-ml-spark for Apache Spark clusters. Experimental results show Snap ML can train a logistic regression model on a 3TB Criteo dataset within 1.5 minutes using 16 GPUs.
TAU Performance System and the Extreme-scale Scientific Software Stack (E4S) aim to improve productivity for HPC and AI workloads. TAU provides a portable performance evaluation toolkit, while E4S delivers modular and interoperable software stacks. Together, they lower barriers to using software tools from the Exascale Computing Project and enable performance analysis of complex, multi-component applications.
IBM AI Solutions on Power Systems is a presentation about IBM's AI solutions. It introduces IBM Visual Insights for tasks like image classification, object detection, and segmentation. A use case demo shows breast cancer classification in under one second with high accuracy. Another demo detects diabetic retinopathy in eye images. The presentation discusses open issues in medical imaging AI and IBM's response to COVID-19, including an X-ray demo to detect COVID-19 in lung images. It calls for collaboration to share medical data and models.
For the full video of this presentation, please visit:
https://www.embedded-vision.com/platinum-members/xilinx/embedded-vision-training/videos/pages/may-2019-embedded-vision-summit
For more information about embedded vision, please visit:
http://www.embedded-vision.com
Nick Ni, Director of Product Marketing at Xilinx, presents the "Xilinx AI Engine: High Performance with Future-proof Architecture Adaptability" tutorial at the May 2019 Embedded Vision Summit.
AI inference demands orders- of-magnitude more compute capacity than what today’s SoCs offer. At the same time, neural network topologies are changing too quickly to be addressed by ASICs that take years to go from architecture to production. In this talk, Ni introduces the Xilinx AI Engine, which complements the dynamically- programmable FPGA fabric to enable ASIC-like performance via custom data flows and a flexible memory hierarchy. This combination provides an orders-of-magnitude boost in AI performance along with the hardware architecture flexibility needed to quickly adapt to rapidly evolving neural network topologies.
EXTENT-2017: Heterogeneous Computing Trends and Business Value CreationIosif Itkin
This document discusses heterogeneous computing trends and how they can create business value. It notes that the end of CPU frequency scaling around 2005-2007 led to approaches like core replication and exploiting concurrency. Fabrication technology advances have led to parity between CPUs, FPGAs, and GPUs on process nodes, with each expected to increase cores/estate/FLOPS significantly by 2030. Mapping applications to heterogeneous resources optimally is challenging due to expanding options and interconnect limitations. Value can be created through non-functional enhancements, functional enhancements, and business model transformations. A case study shows consistent 10x performance gains and optimal space efficiency through fine-grained use case based optimization across CPUs, FPGAs, and GPUs.
This document discusses IBM's involvement in artificial intelligence and deep learning. It includes:
- An introduction to IBM's Cognitive Systems team working in AI.
- A brief history of IBM's AI projects including Deep Blue, Blue Gene, and Watson.
- Explanations of concepts like machine learning, deep learning, and how they relate to high performance computing.
- Details of IBM's current hardware, software, and services for AI workloads including the Power9 processor, PowerAI tools, and storage solutions.
The document provides an overview of IBM's expertise and offerings in the field of artificial intelligence.
This document discusses using OpenMP 4.5 directives and CUDA to accelerate computational fluid dynamics (CFD) simulations on GPUs using OpenPOWER platforms. It describes porting an open-source CFD code called Code Saturne to leverage GPUs for tasks like linear algebra kernels and algebraic multigrid. It shows how OpenMP 4.5 data environments can be used to manage data movement between the host and device without modifying the code. Profiling results indicate that directive-based programming models can achieve speedups and improve programmer productivity when porting existing CPU codes to accelerate tasks on GPUs.
Heterogeneous Computing : The Future of SystemsAnand Haridass
Charts from NITK-IBM Computer Systems Research Group (NCSRG)
- Dennard Scaling,Moore's Law, OpenPOWER, Storage Class Memory, FPGA, GPU, CAPI, OpenCAPI, nVidia nvlink, Google Microsoft Heterogeneous system usage
In this deck from the Performance Optimisation and Productivity group, Lubomir Riha from IT4Innovations presents: Energy Efficient Computing using Dynamic Tuning.
"We now live in a world of power-constrained architectures and systems and power consumption represents a significant cost factor in the overall HPC system economy. For these reasons, in recent years researchers, supercomputing centers and major vendors have developed new tools and methodologies to measure and optimize the energy consumption of large-scale high performance system installations. Due to the link between energy consumption, power consumption and execution time of an application executed by the final user, it is important for these tools and the methodology used to consider all these aspects, empowering the final user and the system administrator with the capability of finding the best configuration given different high level objectives.
This webinar focused on tools designed to improve the energy-efficiency of HPC applications using a methodology of dynamic tuning of HPC applications, developed under the H2020 READEX project. The READEX methodology has been designed for exploiting the dynamic behaviour of software. At design time, different runtime situations (RTS) are detected and optimized system configurations are determined. RTSs with the same configuration are grouped into scenarios, forming the tuning model. At runtime, the tuning model is used to switch system configurations dynamically.
The MERIC tool, that implements the READEX methodology, is presented. It supports manual or binary instrumentation of the analysed applications to simplify the analysis. This instrumentation is used to identify and annotate the significant regions in the HPC application. Automatic binary instrumentation annotates regions with significant runtime. Manual instrumentation, which can be combined with automatic, allows code developer to annotate regions of particular interest."
Watch the video: https://wp.me/p3RLHQ-lJP
Learn more: https://pop-coe.eu/blog/14th-pop-webinar-energy-efficient-computing-using-dynamic-tuning
and
https://code.it4i.cz/vys0053/meric
Sign up for our insideHPC Newsletter: http://insidehpc.com/newslett
The document discusses IBM's Power Systems as an expert platform for artificial intelligence. Some key points:
- Power Systems are designed for modern AI workloads, with accelerated computing capabilities like GPUs and FPGAs.
- The IBM Power AC922 server provides an "acceleration superhighway" between CPUs, GPUs, and other accelerators for optimal AI performance.
- Tests show the AC922 can reduce AI model training times by 3.8x compared to x86 systems, thanks to features like high bandwidth NVLink connections between components.
- IBM's PowerAI software tools help make AI development easier on the Power platform.
Using a Field Programmable Gate Array to Accelerate Application PerformanceOdinot Stanislas
Intel s'intéresse tout particulièrement aux FPGA et notamment au potentiel qu'ils apportent lorsque les ISV et développeurs ont des besoins très spécifiques en Génomique, traitement d'images, traitement de bases de données, et même dans le Cloud. Dans ce document vous aurez l'occasion d'en savoir plus sur notre stratégie, et sur un programme de recherche lancé par Intel et Altera impliquant des Xeon E5 équipés... de FPGA
Intel is looking at FPGA and what they bring to ISVs and developers and their very specific needs in genomics, image processing, databases, and even in the cloud. In this document you will have the opportunity to learn more about our strategy, and a research program initiated by Intel and Altera involving Xeon E5 with... FPGA inside.
Auteur(s)/Author(s):
P. K. Gupta, Director of Cloud Platform Technology, Intel Corporation
This document discusses three key artificial intelligence capabilities of IBM's Power9 architecture:
1) Large Memory Support enables processing of high-definition images and large models that exceed GPU memory limits.
2) Distributed Deep Learning allows scaling to multiple servers for faster and more accurate training on large datasets.
3) PowerAI Vision provides tools for labeling data, training models for computer vision tasks, and deploying models for production use.
In this deck from the UK HPC Conference, Gunter Roeth from NVIDIA presents: Hardware & Software Platforms for HPC, AI and ML.
"Data is driving the transformation of industries around the world and a new generation of AI applications are effectively becoming programs that write software, powered by data, vs by computer programmers. Today, NVIDIA’s tensor core GPU sits at the core of most AI, ML and HPC applications, and NVIDIA software surrounds every level of such a modern application, from CUDA and libraries like cuDNN and NCCL embedded in every deep learning framework and optimized and delivered via the NVIDIA GPU Cloud to reference architectures designed to streamline the deployment of large scale infrastructures."
Watch the video: https://wp.me/p3RLHQ-l2Y
Learn more: http://nvidia.com
and
http://hpcadvisorycouncil.com/events/2019/uk-conference/agenda.php
Sign up for our insideHPC Newsletter: http://insidehpc.com/newsletter
IBM Bayesian Optimization Accelerator (BOA) is a do-it-yourself toolkit to apply state-of-the-art Bayesian inferencing techniques and obtain optimal solutions for complex, real-world design simulations without requiring deep machine learning skills. This talk will describe IBM BOA, its differentiation and ease of use, and how researchers can take advantage of it for optimizing any arbitrary HPC simulation.
The document discusses IBM's POWER9 processor and OpenPOWER ecosystem. It provides an overview of the POWER9 features such as its new core microarchitecture, enhanced cache hierarchy, and acceleration capabilities through technologies like NVLink 2.0 and CAPI 2.0. It also discusses the OpenCAPI open standard and IBM's efforts to build supercomputers for the US Department of Energy using POWER, NVIDIA GPUs, and Mellanox networking technologies.
New Generation of IBM Power Systems Delivering value with Red Hat Enterprise ...Filipe Miranda
New Generation of IBM Power Systems Delivering value with Red Hat Enterprise Linux - Learn about the new IBM Power8 architecture, about Red Hat Enterprise Linux 7 for Power Systems and additional information on EnterpriseDB on how to migrate from Oracle to PostgreSQL.
UPDATED!
This document provides an overview of the AMD EPYCTM microprocessor architecture. It discusses the key tenets of the EPYC processor design including the "Zen" CPU core, virtualization and security features, high per-socket capability through its multi-chip module (MCM) design, high bandwidth fabric interconnect, large memory capacity and disruptive I/O capabilities. It also details the microarchitecture of the "Zen" core and how it was designed and optimized for data center workloads.
In this deck from the HPC User Forum in Tucson, Jeff Stuecheli from IBM presents: POWER9 for AI & HPC.
"Built from the ground-up for data intensive workloads, POWER9 is the only processor with state-of-the-art I/O subsystem technology, including next generation NVIDIA NVLink, PCIe Gen4, and OpenCAPI."
Watch the video: https://wp.me/p3RLHQ-isJ
Learn more: https://www.ibm.com/it-infrastructure/power/power9
and
http://hpcuserforum.com
Sign up for our insideHPC Newsletter: http://insidehpc.com/newsletter
Missed us at this April FIS event? Learn how IBM Power Systems can enable the most data intensive and mission-critical workloads in private and hybrid cloud environments. With IBM POWER9 based Power Systems, you can dynamically scale compute and memory on demand and build a cloud designed for the most data intensive workloads. These systems are ideal for FIS workloads and more.
The document discusses HP's new mission-critical converged infrastructure solutions featuring Intel Itanium processors. Key announcements and enhancements include: new Integrity server blades providing up to 3x performance and 2x cores; the Integrity Superdome 2 with up to 256 cores and reduced TCO; and the Integrity rx2800 i4 server with increased performance and efficiency. HP estimates the new solutions can deliver over 30% savings in total IT costs over three years.
22by7 and DellEMC Tech Day July 20 2017 - Power EdgeSashikris
The document discusses Dell EMC's PowerEdge server solutions for modern data centers. It introduces the PowerEdge R940, R740-R740xd, R640, C6420, and M640-FC640 servers and highlights their key features. These include expanded processing, memory, storage and I/O capacity, intelligent automation capabilities, integrated security features, and workload optimization options. The servers are presented as providing adaptable, scalable and protected infrastructure for traditional and emerging workloads in the modern data center.
High-Density Top-Loading Storage for Cloud Scale Applications Rebekah Rodriguez
In this webinar, we will discuss how high-capacity Top-Loading Storage systems are being used for enterprise and cloud scale applications and will identify the key features of the modular architecture for use in today’s software defined storage (SDS) environments. - https://www.brighttalk.com/webcast/17278/527798
Drive Data Center Efficiency with SuperBlade, Powered by AMD EPYC™ and Instinct™Rebekah Rodriguez
Today's Cloud, Enterprise, HPC, and AI/ML workloads require a new level of computing performance. AMD and Supermicro teamed up to offer a breadth of portfolio products to accelerate compute-intensive workloads. Powered by AMD's 3rd Gen EPYC processors with AMD 3D V-Cache and AMD Instinct MI200 series GPU accelerators, Supermicro's SuperBlade offers the highest density, superior performance, GPU acceleration, and advanced networking features available in the industry today. With world-record performance, the Supermicro SuperBlade can modernize your IT infrastructure while bringing cloud-like agility and economics to on-premises infrastructure. Come join us, discover the various use cases, and see how customers can achieve lower TCO with a cost-effective and flexible platform.
View the webinar: https://www.brighttalk.com/webcast/17278/544861
Modular by Design: Supermicro’s New Standards-Based Universal GPU ServerRebekah Rodriguez
In this webinar, members of the Server Solution Team as well as a member of Supermicro’s Product Office will discuss Supermicro’s Universal GPU Server, the server’s modular, standards-based design, the important role of OCP Accelerator Module (OAM) form factor, and Universal Baseboard (UBB) in the system, as well as touching on AMD's next generation HPC accelerator. In addition, we will get some insights into trends in the HPC and AI/Machine Learning space, including the different software platforms and best practices that are driving innovation in our industry and daily lives. In particular: • Tools to enable use of the high performance hardware for HPC and Deep Learning applications • Tools to enable use of multiple GPUs, including RDMA, to solve highly demanding HPC and deep learning models, such as BERT • Running applications in containers with AMD’s next generation GPU system
Webinar: High Performance MongoDB Applications with IBM POWER8MongoDB
Innovative companies are building Internet of Things, mobile, content management, single view, and big data apps on top of MongoDB. In this session, we'll explore how the IBM POWER8 platform brings new levels of performance and ease of configuration to these solutions which already benefit from easier and faster design and development using MongoDB.
Modular by Design: Supermicro’s New Standards-Based Universal GPU ServerRebekah Rodriguez
In this webinar, members of the Server Solution Team as well as a member of Supermicro’s Product Office will discuss Supermicro’s Universal GPU Server, the server’s modular, standards-based design, the important role of OCP Accelerator Module (OAM) form factor, and Universal Baseboard (UBB) in the system, as well as touching on AMD's next generation HPC accelerator. In addition, we will get some insights into trends in the HPC and AI/Machine Learning space, including the different software platforms and best practices that are driving innovation in our industry and daily lives. In particular: • Tools to enable use of the high performance hardware for HPC and Deep Learning applications • Tools to enable use of multiple GPUs, including RDMA, to solve highly demanding HPC and deep learning models, such as BERT • Running applications in containers with AMD’s next generation GPU system
Better performance and cost effectiveness empower better results in the cognitive era. For more information, visit: http://www.ibm.com/systems/power/hardware/linux-lc.html
The document provides an overview of the IBM DS8000 storage system and its capabilities for data protection and cyber resiliency. Some key points:
- The DS8000 offers balanced performance, reliability, scalability, and flexibility for critical enterprise storage needs.
- It provides modern data protection features like data encryption, thin provisioning, and IBM Database Protection.
- The system is designed for cyber resiliency with functions that optimize caching, prefetching, and data placement to improve I/O performance.
We cover the IBM solution for HPC. In addition to hardware and software stack we show how the rational choice of compilation/running parameters helps to significantly improve the performance of technical computing applications.
Highlights
●● ● ●Complete: combining compute, interconnect,
storage and system software
●● ● ●Modular and Extensible: match the
right combination of components and
configurations to meet your workload
●● ● ●Integrated: racked and tested in
IBM manufacturing to reduce time to
compute
The document describes a 5-day residency program hosted by the OpenPOWER Academic Discussion Group (ADG) at NIE Mysore from June 6-10, 2022. The program aims to bridge industry and academia knowledge in chip design by developing curriculum on OpenPOWER technology and training lab assistants. Engineers and academicians with 5+ years experience in chip design/verification are eligible to participate. They will collaborate on developing course materials and lab exercises to teach undergraduate students in fields like ECE and CSE. The program seeks to help fulfill India's goals in chip design manpower and self-reliance through initiatives like Make in India and the India Semiconductor Mission.
This document provides an overview of digital design and Verilog. It discusses binary numbers and boolean algebra as the foundation of digital systems. It also describes logic gates, combinational and sequential circuits, finite state machines, and datapath and control units. Finally, it introduces Verilog, describing different modeling types like gate level, behavioral, dataflow, and switch level modeling. It positions Verilog as a hardware description language used to more easily design digital circuits compared to manual drawing.
The Libre-SOC Project aims to create an entirely Libre-Licensed, transparently-developed fully auditable Hybrid 3D CPU-GPU-VPU, using the Supercomputer-class OpenPOWER ISA as the foundation.
Our first test ASIC is a 180nm "Fixed-Point" Power ISA v3.0B processor, 5.1mm x 5.9mm, as a proof-of-concept for the team, whose primary expertise is in Software Engineering. Software Engineering training brings a radically different approach to Hardware development: extensive unit tests, source code revision control, automated development tools are normal. Libre Project Management brings even more: bug trackers, mailing lists, auditable IRC logs and a wiki are standard fare for Libre Projects that are simply not normal Industry-Standard practice.
This talk therefore goes through the workflow, from the original HDL through to the GDS-II layout, showing how we were able to keep track of the development that led to the IMEC 180nm tape-out in July 2021. In particular, by following a parallel development process involving "Real" and "Symbolic" Cell Libraries, developed by Chips4Makers, will be shown how our developers did not need to sign a Foundry NDA, but were still able to work side-by-side with a University that did. With this parallel development process, the University upheld their NDA obligations, and Libre-SOC were simultaneously able to honour its Transparency Objectives.
Workload Transformation and Innovations in POWER Architecture Ganesan Narayanasamy
IT Industry is going through two major transformations. One is adaption of AI and tight integration of the same in the commercial applications and enterprise workflow. Two the transformation in software architecture through the concepts like microservices and the cloud native architecture. These transformation alongside the aggressive adaption of IoT/mobile and 5G in all our day today activities is making the world operate in more real time manner which opens-up a new challenge to improve the hardware architecture to adapt to these requirements. These above two major transformation pushes the boundary of the entire systems stack making the designer rethink hardware. This talk presents you a picture of how the enterprise Industry leading POWER architecture is transforming to fulfill the performance demands of these newer generation workloads with primary focus on the AI acceleration on the chip.
July 16th 2021 , Friday for our newest workshop with DoMS, IIT Roorkee, Concept to Solutions using OpenPOWER Stack. It's time to discover advances in #DeepLearning tools and techniques from the world's leading innovators across industries, research, and public speakers.
Register here:
https://lnkd.in/ggxMq2N
This presentation covers two uses cases using OpenPOWER Systems
1. Diabetic Retinopathy using AI on NVIDIA Jetson Nano: The objective is to classify the diabetic level solely on retina image in a remote area with minimum doctor's inference. The model uses VGG16 network architecture and gets trained from scratch on POWER9. The model was deployed on the Jetson Nano board.
1. Classifying Covid positivity using lung X-ray images: The idea is to build ML models to detect positive cases using X-ray images. The model was trained on POWER9, and the application was developed using Python.
This presentation covers various partners and collaborators who are currently working with OpenPOWER foundation ,Use cases of OpenPOWER systems in multiple Industries , OpenPOWER Workgroups and OpenCAPI features .
AI in healthcare and Automobile Industry using OpenPOWER/IBM POWER9 systemsGanesan Narayanasamy
As the adoption of AI technologies increases and matures, the focus will shift from exploration to time to market, productivity and integration with existing workflows. Governing Enterprise data, scaling AI model development, selecting a complete, collaborative hybrid platform and tools for rapid solution deployments are key focus areas for growing data scientist teams tasked to respond to business challenges. This talk will cover the challenges and innovations for AI at scale for the Industires such as Healthcare and Automotive , the AI ladder and AI life cycle and infrastructure architecture considerations.
This talk gives an introduction about Healthcare Use cases - The AI ladder and Lifestyle AI at Scale Themes The iterative nature of the workflow and some of the important components to be aware in developing AI health care solutions were being discussed. The different types of algorithms and when machine learning might be more appropriate in deep learning or the other way will also be discussed. Use cases in terms of examples are also shared as part of this presentation .
Healthcare has became one of the most important aspects of everyones life. Its importance has surged due to the latests outbreaks and due to this latest pandemic it has become mandatory to collaborate to improve everyones Healthcare as soon as possible.
IBM has reacted quickly sharing not only its knowledge but also its Artificial Intelligence Supercomputers all around the world.
Those Supercomputers are helping to prevail this outbreak and also future ones.
They have completely different features compared to proposals from other players of this Supercomputers market.
We will try to make a quick look at the differences of those AI focused Supercomputers and how they can help in the R&D of Healthcare solutions for everyone, from those ones with access to a big IBM AI Supercomputer to those ones with access to only one small IBM AI focused server.
Healthcare has became one of the most important aspects of everyones life. Its importance has surged due to the latests outbreaks and due to this latest pandemic it has become mandatory to collaborate to improve everyones Healthcare as soon as possible.
IBM has reacted quickly sharing not only its knowledge but also its Artificial Intelligence Supercomputers all around the world.
Those Supercomputers are helping to prevail this outbreak and also future ones.
They have completely different features compared to proposals from other players of this Supercomputers market.
We will try to make a quick look at the differences of those AI focused Supercomputers and how they can help in the R&D of Healthcare solutions for everyone, from those ones with access to a big IBM AI Supercomputer to those ones with access to only one small IBM AI focused server.
Moving object recognition (MOR) corresponds to the localization and classification of moving objects in videos. Discriminating moving objects from static objects and background in videos is an essential task for many computer vision applications. MOR has widespread applications in intelligent visual surveillance, intrusion detection, anomaly detection and monitoring, industrial sites monitoring, detection-based tracking, autonomous vehicles, etc. In this session, Murari provided a poster about the deep learning algorithms to identify both locations and corresponding categories of moving objects with a convolutional network. The challenges in developing such algorithms have been discussed.
The document discusses AI in the enterprise, including use cases, infrastructure considerations, and the AI lifecycle. It provides examples of how AI can be applied in various industries and common patterns of analytics using AI. It also outlines the data science model development workflow and considerations for AI infrastructure, software, and data management throughout the AI lifecycle.
Dr Murari Mandal from NUS presented as part of 3 days OpenPOWER Industry summit about Robustness in Deep learning where he talked about AI Breakthroughs , Performance improments in AI models , Adversarial attacks , Attacks on semantic segmentation , Attacs on object detector , Defending Against adversarial attacks and many other areas.
IBM experts Girish and Chandu presented about A2O Core implementation on FPGA as part of JNTU A 2 DAYS Workshop . They covered the features of A2O core , how this core can be infused in FPGA
This was presented as part of JNTU A 2021 2 days workshop.. Ganesan Narayanasamy from IBM presented this to many young developers and faculties where he described about Why OpenPOWER foundation , what are the tools and features available for community development , value creation for members etc.
This presentation was part of JNTU A 2 days workshops where IBM expert Satish presented about Open POWER ISA , Open Cores and the future architectures ..
Data Protection in a Connected World: Sovereignty and Cyber Securityanupriti
Delve into the critical intersection of data sovereignty and cyber security in this presentation. Explore unconventional cyber threat vectors and strategies to safeguard data integrity and sovereignty in an increasingly interconnected world. Gain insights into emerging threats and proactive defense measures essential for modern digital ecosystems.
UiPath Community Day Kraków: Devs4Devs ConferenceUiPathCommunity
We are honored to launch and host this event for our UiPath Polish Community, with the help of our partners - Proservartner!
We certainly hope we have managed to spike your interest in the subjects to be presented and the incredible networking opportunities at hand, too!
Check out our proposed agenda below 👇👇
08:30 ☕ Welcome coffee (30')
09:00 Opening note/ Intro to UiPath Community (10')
Cristina Vidu, Global Manager, Marketing Community @UiPath
Dawid Kot, Digital Transformation Lead @Proservartner
09:10 Cloud migration - Proservartner & DOVISTA case study (30')
Marcin Drozdowski, Automation CoE Manager @DOVISTA
Pawel Kamiński, RPA developer @DOVISTA
Mikolaj Zielinski, UiPath MVP, Senior Solutions Engineer @Proservartner
09:40 From bottlenecks to breakthroughs: Citizen Development in action (25')
Pawel Poplawski, Director, Improvement and Automation @McCormick & Company
Michał Cieślak, Senior Manager, Automation Programs @McCormick & Company
10:05 Next-level bots: API integration in UiPath Studio (30')
Mikolaj Zielinski, UiPath MVP, Senior Solutions Engineer @Proservartner
10:35 ☕ Coffee Break (15')
10:50 Document Understanding with my RPA Companion (45')
Ewa Gruszka, Enterprise Sales Specialist, AI & ML @UiPath
11:35 Power up your Robots: GenAI and GPT in REFramework (45')
Krzysztof Karaszewski, Global RPA Product Manager
12:20 🍕 Lunch Break (1hr)
13:20 From Concept to Quality: UiPath Test Suite for AI-powered Knowledge Bots (30')
Kamil Miśko, UiPath MVP, Senior RPA Developer @Zurich Insurance
13:50 Communications Mining - focus on AI capabilities (30')
Thomasz Wierzbicki, Business Analyst @Office Samurai
14:20 Polish MVP panel: Insights on MVP award achievements and career profiling
Hire a private investigator to get cell phone recordsHackersList
Learn what private investigators can legally do to obtain cell phone records and track phones, plus ethical considerations and alternatives for addressing privacy concerns.
Interaction Latency: Square's User-Centric Mobile Performance MetricScyllaDB
Mobile performance metrics often take inspiration from the backend world and measure resource usage (CPU usage, memory usage, etc) and workload durations (how long a piece of code takes to run).
However, mobile apps are used by humans and the app performance directly impacts their experience, so we should primarily track user-centric mobile performance metrics. Following the lead of tech giants, the mobile industry at large is now adopting the tracking of app launch time and smoothness (jank during motion).
At Square, our customers spend most of their time in the app long after it's launched, and they don't scroll much, so app launch time and smoothness aren't critical metrics. What should we track instead?
This talk will introduce you to Interaction Latency, a user-centric mobile performance metric inspired from the Web Vital metric Interaction to Next Paint"" (web.dev/inp). We'll go over why apps need to track this, how to properly implement its tracking (it's tricky!), how to aggregate this metric and what thresholds you should target.
GDG Cloud Southlake #34: Neatsun Ziv: Automating AppsecJames Anderson
The lecture titled "Automating AppSec" delves into the critical challenges associated with manual application security (AppSec) processes and outlines strategic approaches for incorporating automation to enhance efficiency, accuracy, and scalability. The lecture is structured to highlight the inherent difficulties in traditional AppSec practices, emphasizing the labor-intensive triage of issues, the complexity of identifying responsible owners for security flaws, and the challenges of implementing security checks within CI/CD pipelines. Furthermore, it provides actionable insights on automating these processes to not only mitigate these pains but also to enable a more proactive and scalable security posture within development cycles.
The Pains of Manual AppSec:
This section will explore the time-consuming and error-prone nature of manually triaging security issues, including the difficulty of prioritizing vulnerabilities based on their actual risk to the organization. It will also discuss the challenges in determining ownership for remediation tasks, a process often complicated by cross-functional teams and microservices architectures. Additionally, the inefficiencies of manual checks within CI/CD gates will be examined, highlighting how they can delay deployments and introduce security risks.
Automating CI/CD Gates:
Here, the focus shifts to the automation of security within the CI/CD pipelines. The lecture will cover methods to seamlessly integrate security tools that automatically scan for vulnerabilities as part of the build process, thereby ensuring that security is a core component of the development lifecycle. Strategies for configuring automated gates that can block or flag builds based on the severity of detected issues will be discussed, ensuring that only secure code progresses through the pipeline.
Triaging Issues with Automation:
This segment addresses how automation can be leveraged to intelligently triage and prioritize security issues. It will cover technologies and methodologies for automatically assessing the context and potential impact of vulnerabilities, facilitating quicker and more accurate decision-making. The use of automated alerting and reporting mechanisms to ensure the right stakeholders are informed in a timely manner will also be discussed.
Identifying Ownership Automatically:
Automating the process of identifying who owns the responsibility for fixing specific security issues is critical for efficient remediation. This part of the lecture will explore tools and practices for mapping vulnerabilities to code owners, leveraging version control and project management tools.
Three Tips to Scale the Shift Left Program:
Finally, the lecture will offer three practical tips for organizations looking to scale their Shift Left security programs. These will include recommendations on fostering a security culture within development teams, employing DevSecOps principles to integrate security throughout the development
Coordinate Systems in FME 101 - Webinar SlidesSafe Software
If you’ve ever had to analyze a map or GPS data, chances are you’ve encountered and even worked with coordinate systems. As historical data continually updates through GPS, understanding coordinate systems is increasingly crucial. However, not everyone knows why they exist or how to effectively use them for data-driven insights.
During this webinar, you’ll learn exactly what coordinate systems are and how you can use FME to maintain and transform your data’s coordinate systems in an easy-to-digest way, accurately representing the geographical space that it exists within. During this webinar, you will have the chance to:
- Enhance Your Understanding: Gain a clear overview of what coordinate systems are and their value
- Learn Practical Applications: Why we need datams and projections, plus units between coordinate systems
- Maximize with FME: Understand how FME handles coordinate systems, including a brief summary of the 3 main reprojectors
- Custom Coordinate Systems: Learn how to work with FME and coordinate systems beyond what is natively supported
- Look Ahead: Gain insights into where FME is headed with coordinate systems in the future
Don’t miss the opportunity to improve the value you receive from your coordinate system data, ultimately allowing you to streamline your data analysis and maximize your time. See you there!
What Not to Document and Why_ (North Bay Python 2024)Margaret Fero
We’re hopefully all on board with writing documentation for our projects. However, especially with the rise of supply-chain attacks, there are some aspects of our projects that we really shouldn’t document, and should instead remediate as vulnerabilities. If we do document these aspects of a project, it may help someone compromise the project itself or our users. In this talk, you will learn why some aspects of documentation may help attackers more than users, how to recognize those aspects in your own projects, and what to do when you encounter such an issue.
These are slides as presented at North Bay Python 2024, with one minor modification to add the URL of a tweet screenshotted in the presentation.
How to Avoid Learning the Linux-Kernel Memory ModelScyllaDB
The Linux-kernel memory model (LKMM) is a powerful tool for developing highly concurrent Linux-kernel code, but it also has a steep learning curve. Wouldn't it be great to get most of LKMM's benefits without the learning curve?
This talk will describe how to do exactly that by using the standard Linux-kernel APIs (locking, reference counting, RCU) along with a simple rules of thumb, thus gaining most of LKMM's power with less learning. And the full LKMM is always there when you need it!
Paradigm Shifts in User Modeling: A Journey from Historical Foundations to Em...Erasmo Purificato
Slide of the tutorial entitled "Paradigm Shifts in User Modeling: A Journey from Historical Foundations to Emerging Trends" held at UMAP'24: 32nd ACM Conference on User Modeling, Adaptation and Personalization (July 1, 2024 | Cagliari, Italy)
The DealBook is our annual overview of the Ukrainian tech investment industry. This edition comprehensively covers the full year 2023 and the first deals of 2024.
Fluttercon 2024: Showing that you care about security - OpenSSF Scorecards fo...Chris Swan
Have you noticed the OpenSSF Scorecard badges on the official Dart and Flutter repos? It's Google's way of showing that they care about security. Practices such as pinning dependencies, branch protection, required reviews, continuous integration tests etc. are measured to provide a score and accompanying badge.
You can do the same for your projects, and this presentation will show you how, with an emphasis on the unique challenges that come up when working with Dart and Flutter.
The session will provide a walkthrough of the steps involved in securing a first repository, and then what it takes to repeat that process across an organization with multiple repos. It will also look at the ongoing maintenance involved once scorecards have been implemented, and how aspects of that maintenance can be better automated to minimize toil.
Are you interested in learning about creating an attractive website? Here it is! Take part in the challenge that will broaden your knowledge about creating cool websites! Don't miss this opportunity, only in "Redesign Challenge"!
Details of description part II: Describing images in practice - Tech Forum 2024BookNet Canada
This presentation explores the practical application of image description techniques. Familiar guidelines will be demonstrated in practice, and descriptions will be developed “live”! If you have learned a lot about the theory of image description techniques but want to feel more confident putting them into practice, this is the presentation for you. There will be useful, actionable information for everyone, whether you are working with authors, colleagues, alone, or leveraging AI as a collaborator.
Link to presentation recording and transcript: https://bnctechforum.ca/sessions/details-of-description-part-ii-describing-images-in-practice/
Presented by BookNet Canada on June 25, 2024, with support from the Department of Canadian Heritage.
Are you interested in dipping your toes in the cloud native observability waters, but as an engineer you are not sure where to get started with tracing problems through your microservices and application landscapes on Kubernetes? Then this is the session for you, where we take you on your first steps in an active open-source project that offers a buffet of languages, challenges, and opportunities for getting started with telemetry data.
The project is called openTelemetry, but before diving into the specifics, we’ll start with de-mystifying key concepts and terms such as observability, telemetry, instrumentation, cardinality, percentile to lay a foundation. After understanding the nuts and bolts of observability and distributed traces, we’ll explore the openTelemetry community; its Special Interest Groups (SIGs), repositories, and how to become not only an end-user, but possibly a contributor.We will wrap up with an overview of the components in this project, such as the Collector, the OpenTelemetry protocol (OTLP), its APIs, and its SDKs.
Attendees will leave with an understanding of key observability concepts, become grounded in distributed tracing terminology, be aware of the components of openTelemetry, and know how to take their first steps to an open-source contribution!
Key Takeaways: Open source, vendor neutral instrumentation is an exciting new reality as the industry standardizes on openTelemetry for observability. OpenTelemetry is on a mission to enable effective observability by making high-quality, portable telemetry ubiquitous. The world of observability and monitoring today has a steep learning curve and in order to achieve ubiquity, the project would benefit from growing our contributor community.
Navigating Post-Quantum Blockchain: Resilient Cryptography in Quantum Threatsanupriti
In the rapidly evolving landscape of blockchain technology, the advent of quantum computing poses unprecedented challenges to traditional cryptographic methods. As quantum computing capabilities advance, the vulnerabilities of current cryptographic standards become increasingly apparent.
This presentation, "Navigating Post-Quantum Blockchain: Resilient Cryptography in Quantum Threats," explores the intersection of blockchain technology and quantum computing. It delves into the urgent need for resilient cryptographic solutions that can withstand the computational power of quantum adversaries.
Key topics covered include:
An overview of quantum computing and its implications for blockchain security.
Current cryptographic standards and their vulnerabilities in the face of quantum threats.
Emerging post-quantum cryptographic algorithms and their applicability to blockchain systems.
Case studies and real-world implications of quantum-resistant blockchain implementations.
Strategies for integrating post-quantum cryptography into existing blockchain frameworks.
Join us as we navigate the complexities of securing blockchain networks in a quantum-enabled future. Gain insights into the latest advancements and best practices for safeguarding data integrity and privacy in the era of quantum threats.
The Rise of Supernetwork Data Intensive ComputingLarry Smarr
Invited Remote Lecture to SC21
The International Conference for High Performance Computing, Networking, Storage, and Analysis
St. Louis, Missouri
November 18, 2021