Towards a High-Performance National Research Platform Enabling Digital ResearchLarry Smarr
The document summarizes Dr. Larry Smarr's keynote presentation on enabling a high-performance national research platform. It describes how multi-institutional research increasingly relies on access to large datasets, requiring new cyberinfrastructure. The Pacific Research Platform provides high-bandwidth networking between universities to support research collaborations across disciplines. The next steps involve scaling this model into a national and global platform. The presentation highlights how the PRP enables various scientific applications and drives innovation through improved data transfer capabilities and distributed computing resources.
The Pacific Research Platform:a Science-Driven Big-Data Freeway SystemLarry Smarr
The Pacific Research Platform will create a regional "Big Data Freeway System" along the West Coast to support science. It will connect major research institutions with high-speed optical networks, allowing them to share vast amounts of data and computational resources. This will enable new forms of collaborative, data-intensive research for fields like particle physics, astronomy, biomedicine, and earth sciences. The first phase aims to establish a basic networked infrastructure, with later phases advancing capabilities to 100Gbps and beyond with security and distributed technologies.
CENIC: Pacific Wave and PRP Update Big News for Big DataLarry Smarr
The document discusses the Pacific Wave exchange and Pacific Research Platform (PRP). It provides an overview of Pacific Wave, including its history and connectivity across the Pacific and western US. It then discusses how the PRP will build on infrastructure projects to create a high-speed "big data freeway" for science across California universities. This will allow researchers to more easily share and analyze large datasets for projects in areas like climate modeling, cancer genomics, astronomy and particle physics. Details are provided on specific science applications and datasets that will benefit from the enhanced connectivity of the PRP.
Creating a Big Data Machine Learning Platform in CaliforniaLarry Smarr
Big Data Tech Forum: Big Data Enabling Technologies and Applications
San Diego Chinese American Science and Engineering Association (SDCASEA)
Sanford Consortium
La Jolla, CA
December 2, 2017
The Pacific Research Platform: Building a Distributed Big Data Machine Learni...Larry Smarr
This document summarizes Dr. Larry Smarr's invited talk about the Pacific Research Platform (PRP) given at the San Diego Supercomputer Center in April 2019. The PRP is building a distributed big data machine learning supercomputer by connecting high-performance computing and data resources across multiple universities in California and beyond using high-speed networks. It provides researchers with petascale computing power, distributed storage, and tools like Kubernetes to enable collaborative data-intensive science across institutions.
The Pacific Research Platform 18 Months In Larry Smarr
The Pacific Research Platform (PRP) is an 18-month project funded by the National Science Foundation to build a regional cyberinfrastructure connecting research institutions along the west coast of the US. In the first 18 months, the PRP installed high-speed data transfer nodes (FIONAs) at 12 sites to facilitate fast data transfers between research teams. Measurement of data transfers between sites showed a four-fold increase in connectivity. The PRP aims to serve as a prototype for a potential national-scale research network and held workshops to engage researchers. It will undergo a review to evaluate progress towards enabling multi-campus collaborative research teams through high-performance networking.
Pacific Research Platform Science DriversLarry Smarr
The document discusses the vision and progress of the Pacific Research Platform (PRP) in creating a "big data freeway" across the West Coast to enable data-intensive science. It outlines how the PRP builds on previous NSF and DOE networking investments to provide dedicated high-performance computing resources, like GPU clusters and Jupyter hubs, connected by high-speed networks at multiple universities. Several science driver teams are highlighted, including particle physics, astronomy, microbiology, earth sciences, and visualization, that will leverage PRP resources for large-scale collaborative data analysis projects.
Pacific Wave and PRP Update Big News for Big DataLarry Smarr
The Pacific Research Platform (PRP) aims to create a "Big Data freeway system" across research institutions in the western United States and Pacific region by leveraging high-bandwidth optical fiber networks. The PRP connects multiple universities and national laboratories, providing bandwidth up to 100Gbps for data-intensive science applications. Initial testing of the PRP demonstrated disk-to-disk transfer speeds exceeding 5Gbps between many sites. The PRP will be expanded with SDN/SDX capabilities to enable even higher performance for large-scale datasets from fields like astronomy, genomics, and particle physics.
Peering The Pacific Research Platform With The Great Plains NetworkLarry Smarr
The Pacific Research Platform (PRP) connects research institutions across the western United States with high-speed networks to enable data-intensive science collaborations. Key points:
- The PRP connects 15 campuses across California and links to the Great Plains Network, allowing researchers to access remote supercomputers, share large datasets, and collaborate on projects like analyzing data from the Large Hadron Collider.
- The PRP utilizes Science DMZ architectures with dedicated data transfer nodes called FIONAs to achieve high-speed transfer of large files. Kubernetes is used to manage distributed storage and computing resources.
- Early applications include distributed climate modeling, wildfire science, plankton imaging, and cancer genomics. The PR
Using the Pacific Research Platform for Earth Sciences Big DataLarry Smarr
Grand Challenge Lecture
Big Data and the Earth Sciences: Grand Challenges Workshop
Calit2’s Qualcomm Institute
University of California, San Diego
May 31, 2017
- The Pacific Research Platform (PRP) interconnects campus DMZs across multiple institutions to provide high-speed connectivity for data-intensive research.
- The PRP utilizes specialized data transfer nodes called FIONAs that provide disk-to-disk transfer speeds of 10-100Gbps.
- Early applications of the PRP include distributing telescope data between UC campuses, connecting particle physics experiments to computing resources, and enabling real-time wildfire sensor data analysis.
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
My Remembrances of Mike Norman Over The Last 45 YearsLarry Smarr
Mike Norman has been a leader in computational astrophysics for over 45 years. Some of his influential work includes:
- Cosmic jet simulations in the early 1980s which helped explain phenomena from galactic centers.
- Pioneering the use of adaptive mesh refinement in the 1990s to achieve dynamic load balancing on supercomputers.
- Massive cosmology simulations in the late 2000s with over 100 trillion particles using thousands of processors across multiple supercomputing sites, producing petabytes of data.
- Developing end-to-end workflows in the 2000s to couple supercomputers, high-speed networks, and large visualization systems to enable real-time analysis of extremely large astrophysics simulations.
Metagenics How Do I Quantify My Body and Try to Improve its Health? June 18 2019Larry Smarr
Larry Smarr discusses quantifying his body and health over time through extensive self-tracking. He measures various biomarkers through regular blood tests and analyzes his gut microbiome by sequencing stool samples. This revealed issues like chronic inflammation and an unhealthy microbiome. Smarr then took steps like a restricted eating window and increasing plant diversity in his diet, which reversed metabolic syndrome issues and correlated with shifts in his microbiome ecology. His goal is to continue precisely measuring factors like toxins, hormones, gut permeability and food/supplement impacts to further optimize his health.
Panel: Reaching More Minority Serving InstitutionsLarry Smarr
This document discusses engaging more minority serving institutions (MSIs) in cyberinfrastructure development through regional networks. It provides data showing the importance of MSIs like historically black colleges and universities (HBCUs) in educating underrepresented minority students in STEM fields. Regional networks can help equalize opportunities by assisting MSIs in overcoming barriers to resources through training, networking infrastructure support, and helping institutions obtain necessary staffing and funding. Strategies mentioned include collaborating with MSIs on grants and addressing issues identified in surveys like lack of vision for data use beyond compliance. The goal is to broaden participation in STEAM fields by leveraging the success MSIs have shown in supporting underrepresented students.
Global Network Advancement Group - Next Generation Network-Integrated SystemsLarry Smarr
This document summarizes a presentation on global petascale to exascale workflows for data intensive sciences. It discusses a partnership convened by the GNA-G Data Intensive Sciences Working Group with the mission of meeting challenges faced by data-intensive science programs. Cornerstone concepts that will be demonstrated include integrated network and site resource management, model-driven frameworks for resource orchestration, end-to-end monitoring with machine learning-optimized data transfers, and integrating Qualcomm's GradientGraph with network services to optimize applications and science workflows.
Wireless FasterData and Distributed Open Compute Opportunities and (some) Us...Larry Smarr
This document discusses opportunities for ESnet to support wireless edge computing through developing a strategy around self-guided field laboratories (SGFL). It outlines several potential science use cases that could benefit from wireless and distributed computing capabilities, both in the short term through technologies like 5G, LoRa and Starlink, and longer term through the vision of automated SGFL. The document proposes some initial ideas for deploying and testing wireless edge computing technologies through existing projects to help enable the SGFL vision and further scientific opportunities. It emphasizes that exploring these emerging areas could help drive new science possibilities if done at a reasonable scale.
The Zaitechno Handheld Raman Spectrometer is a powerful and portable tool for rapid, non-destructive chemical analysis. It utilizes Raman spectroscopy, a technique that analyzes the vibrational fingerprint of molecules to identify their chemical composition. This handheld instrument allows for on-site analysis of materials, making it ideal for a variety of applications, including:
Material identification: Identify unknown materials, minerals, and contaminants.
Quality control: Ensure the quality and consistency of raw materials and finished products.
Pharmaceutical analysis: Verify the identity and purity of pharmaceutical compounds.
Food safety testing: Detect contaminants and adulterants in food products.
Field analysis: Analyze materials in the field, such as during environmental monitoring or forensic investigations.
The Zaitechno Handheld Raman Spectrometer is easy to use and features a user-friendly interface. It is compact and lightweight, making it ideal for field applications. With its rapid analysis capabilities, the Zaitechno Handheld Raman Spectrometer can help you improve efficiency and productivity in your research or quality control workflows.
Self-Healing Test Automation Framework - HealeniumKnoldus Inc.
Revolutionize your test automation with Healenium's self-healing framework. Automate test maintenance, reduce flakes, and increase efficiency. Learn how to build a robust test automation foundation. Discover the power of self-healing tests. Transform your testing experience.
Cracking AI Black Box - Strategies for Customer-centric Enterprise ExcellenceQuentin Reul
The democratization of Generative AI is ushering in a new era of innovation for enterprises. Discover how you can harness this powerful technology to deliver unparalleled customer value and securing a formidable competitive advantage in today's competitive market. In this session, you will learn how to:
- Identify high-impact customer needs with precision
- Harness the power of large language models to address specific customer needs effectively
- Implement AI responsibly to build trust and foster strong customer relationships
Whether you're at the early stages of your AI journey or looking to optimize existing initiatives, this session will provide you with actionable insights and strategies needed to leverage AI as a powerful catalyst for customer-driven enterprise success.
UiPath Community Day Amsterdam: Code, Collaborate, ConnectUiPathCommunity
Welcome to our third live UiPath Community Day Amsterdam! Come join us for a half-day of networking and UiPath Platform deep-dives, for devs and non-devs alike, in the middle of summer ☀.
📕 Agenda:
12:30 Welcome Coffee/Light Lunch ☕
13:00 Event opening speech
Ebert Knol, Managing Partner, Tacstone Technology
Jonathan Smith, UiPath MVP, RPA Lead, Ciphix
Cristina Vidu, Senior Marketing Manager, UiPath Community EMEA
Dion Mes, Principal Sales Engineer, UiPath
13:15 ASML: RPA as Tactical Automation
Tactical robotic process automation for solving short-term challenges, while establishing standard and re-usable interfaces that fit IT's long-term goals and objectives.
Yannic Suurmeijer, System Architect, ASML
13:30 PostNL: an insight into RPA at PostNL
Showcasing the solutions our automations have provided, the challenges we’ve faced, and the best practices we’ve developed to support our logistics operations.
Leonard Renne, RPA Developer, PostNL
13:45 Break (30')
14:15 Breakout Sessions: Round 1
Modern Document Understanding in the cloud platform: AI-driven UiPath Document Understanding
Mike Bos, Senior Automation Developer, Tacstone Technology
Process Orchestration: scale up and have your Robots work in harmony
Jon Smith, UiPath MVP, RPA Lead, Ciphix
UiPath Integration Service: connect applications, leverage prebuilt connectors, and set up customer connectors
Johans Brink, CTO, MvR digital workforce
15:00 Breakout Sessions: Round 2
Automation, and GenAI: practical use cases for value generation
Thomas Janssen, UiPath MVP, Senior Automation Developer, Automation Heroes
Human in the Loop/Action Center
Dion Mes, Principal Sales Engineer @UiPath
Improving development with coded workflows
Idris Janszen, Technical Consultant, Ilionx
15:45 End remarks
16:00 Community fun games, sharing knowledge, drinks, and bites 🍻
Retrieval Augmented Generation Evaluation with RagasZilliz
Retrieval Augmented Generation (RAG) enhances chatbots by incorporating custom data in the prompt. Using large language models (LLMs) as judge has gained prominence in modern RAG systems. This talk will demo Ragas, an open-source automation tool for RAG evaluations. Christy will talk about and demo evaluating a RAG pipeline using Milvus and RAG metrics like context F1-score and answer correctness.
Generative AI technology is a fascinating field that focuses on creating comp...Nohoax Kanont
Generative AI technology is a fascinating field that focuses on creating computer models capable of generating new, original content. It leverages the power of large language models, neural networks, and machine learning to produce content that can mimic human creativity. This technology has seen a surge in innovation and adoption since the introduction of ChatGPT in 2022, leading to significant productivity benefits across various industries. With its ability to generate text, images, video, and audio, generative AI is transforming how we interact with technology and the types of tasks that can be automated.
Finetuning GenAI For Hacking and DefendingPriyanka Aash
Generative AI, particularly through the lens of large language models (LLMs), represents a transformative leap in artificial intelligence. With advancements that have fundamentally altered our approach to AI, understanding and leveraging these technologies is crucial for innovators and practitioners alike. This comprehensive exploration delves into the intricacies of GenAI, from its foundational principles and historical evolution to its practical applications in security and beyond.
Garbage In, Garbage Out: Why poor data curation is killing your AI models (an...Zilliz
Enterprises have traditionally prioritized data quantity, assuming more is better for AI performance. However, a new reality is setting in: high-quality data, not just volume, is the key. This shift exposes a critical gap – many organizations struggle to understand their existing data and lack effective curation strategies and tools. This talk dives into these data challenges and explores the methods of automating data curation.
"Making .NET Application Even Faster", Sergey Teplyakov.pptxFwdays
In this talk we're going to explore performance improvement lifecycle, starting with setting the performance goals, using profilers to figure out the bottle necks, making a fix and validating that the fix works by benchmarking it. The talk will be useful for novice and seasoned .NET developers and architects interested in making their application fast and understanding how things work under the hood.
Keynote : Presentation on SASE TechnologyPriyanka Aash
Secure Access Service Edge (SASE) solutions are revolutionizing enterprise networks by integrating SD-WAN with comprehensive security services. Traditionally, enterprises managed multiple point solutions for network and security needs, leading to complexity and resource-intensive operations. SASE, as defined by Gartner, consolidates these functions into a unified cloud-based service, offering SD-WAN capabilities alongside advanced security features like secure web gateways, CASB, and remote browser isolation. This convergence not only simplifies management but also enhances security posture and application performance across global networks and cloud environments. Discover how adopting SASE can streamline operations and fortify your enterprise's digital transformation strategy.
Increase Quality with User Access Policies - July 2024Peter Caitens
⭐️ Increase Quality with User Access Policies ⭐️, presented by Peter Caitens and Adam Best of Salesforce. View the slides from this session to hear all about “User Access Policies” and how they can help you onboard users faster with greater quality.
Increase Quality with User Access Policies - July 2024
The PRP and Its Applications - Nautilus and the National Research Platform
1. “The PRP and Its Applications”
Panel Presentation
With Tom DeFanti and Frank Wuerthwein
Nautilus and the National Research Platform
CENIC 2022 Annual Conference
September 27, 2022
1
Dr. Larry Smarr
Founding Director Emeritus, California Institute for Telecommunications and Information Technology;
Distinguished Professor Emeritus, Dept. of Computer Science and Engineering
Jacobs School of Engineering, UCSD
http://lsmarr.calit2.net
2. The New Pacific Research Platform Video
Highlights 3 Different Applications Out of 700 Nautilus Namespace Projects
Pacific Research Platform Video:
https://pacificresearchplatform.org/media/pacific-research-platform-video/
3. Co-Existence of Interactive and
Non-Interactive Computing on PRP
GPU Simulations Needed to Improve Ice Model.
=> Results in Significant Improvement
in Pointing Resolution for Multi-Messenger Astrophysics
NSF Large-Scale Observatories Are Using PRP and OSG
as a Cohesive, Federated, National-Scale Research Data Infrastructure
NSF’s IceCube & LIGO Both See Nautilus
as Just Another OSG Resource
IceCube Used Up to
300 of PRP’s 500
GPUs in 2021!
4. 2017: PRP 20Gbps Connection of UCSD SunCAVE and UCM WAVE Over CENIC
2018-2019: Added Their 90 GPUs to PRP for Machine Learning Computations
Leveraging UCM Campus Funds and NSF CNS-1456638 & CNS-1730158 at UCSD
UC Merced WAVE (20 Screens, 20 GPUs) UCSD SunCAVE (70 Screens, 70 GPUs)
See These VR Facilities in Action in the PRP Video
5. NSF-Funded WIFIRE Uses PRP/CENIC to Couple Wireless Edge Sensors
With Supercomputers, Enabling Fire Modeling Workflows
Landscape data
WIFIRE Firemap
Fire Perimeter
Source: Ilkay Altintas, SDSC
Real-Time
Meteorological Sensors
Weather Forecasts
Work Flow
PRP
6. The PRP Has Emphasized
Expanding Diversity and Inclusion
• When the PRP Grant Was Funded in 2015, It Started With:
– 6 States Now 40 States
– 19 Campuses Now 95 Campuses
– 9 Minority Serving Institutions Now 20 MSIs
– 2 NSF EPCoR States Now 19 EPSCoR States, 2 Territories, and Wash DC
7. Help Us Find The Minds We Need From the CENIC Family:
Join the Growing National Research Platform
• Caltech
• Harvey Mudd College
• Stanford U.
• USC
• Naval Postgraduate School
• UC Berkeley
• UC Davis
• UC Irvine
• UC Los Angeles
• UC Merced
• UC Riverside
• UC San Diego
• UC San Francisco
• UC Santa Barbara
• UC Santa Cruz
Minority Serving Institutions
• Cal State Monterey Bay
• Cal Poly Pomona
• Cal State San Bernardino
• Cal State Northridge
• San Diego State
• San Jose State
Future NRP Users From:
• 17 More CSU
• Community Colleges
• High School
• Libraries
• Planetariums
• Museums