This document provides an overview of Sun's product portfolio, including workstations, servers, storage arrays, and tape libraries. It describes Sun's high-end, mid-range, and entry-level server families powered by UltraSPARC processors. It also outlines Sun's storage array families ranging from mission-critical to entry-level solutions. Key features across products include redundancy, dynamic reconfiguration, virtualization, and Solaris operating system support.
This document provides an update on Sun products in 2007. It discusses Sun gaining market share in servers and storage systems over the previous year. Several new Sun server systems are introduced, including the Sun Fire X4600 enterprise data center server and Sun Fire X4500 hybrid data server. The benefits of the Sun Blade 8000 modular blade system are also summarized. Solaris license growth on x64 servers from HP, Dell, and IBM is shown increasing to over 7 million licenses.
This document introduces the T2000/T1000 product updates and the new T10K database server. It summarizes the key features and performance of the UltraSPARC T1 chip, and discusses how the T2000 performs well in web, application and database tiers based on several benchmark tests. It also recommends a T10K configuration using T2000 and ST6140 systems, and compares its performance and pricing favorably against alternatives from IBM.
Fujitsu m10 server features and capabilitiessolarisyougood
This document provides an overview of the Fujitsu M10 server product line. It describes the hardware features and capabilities of the Fujitsu M10-1, M10-4, and M10-4S servers including their processors, memory, I/O, storage, and virtualization support. It also discusses the reliability, availability, and serviceability features, and performance advantages for running Oracle databases and SAP workloads on the Fujitsu M10 servers.
The document discusses optimizing Oracle and Siebel applications on Sun Microsystems' UltraSPARC T1 (Niagara) platform. It provides an overview of Siebel architecture and its suitability for the T1 processor. Performance benchmarks show Siebel scaling well by taking advantage of the T1 processor's multithreading capabilities. The document also discusses various optimizations that can be done at the application, database, storage, and operating system levels to further improve performance.
This document introduces several Sun Storage disk array products, including the 6180, 6580, and 6780. It provides details on the performance and features of each product. The 6180 offers around 2x the throughput and IOPS of previous generations with response times that are shorter. The 6580 offers 1.2x the IOPS and 2x the throughput of the 6580. The 6780 offers even greater performance improvements over previous generations. The document also covers features like support for SSDs, disk encryption, and non-disruptive upgrades between products.
The document discusses various configurations for EMC VNX storage arrays. It describes a configuration for consolidating Oracle workloads using a VNX5400 array with SSD caching and storage pools for VMs, Oracle redo logs, backups and data. It also outlines a configuration for virtualization with a VNX5400 providing over 50TiB of capacity for 500 VMs. Charts show how these configurations can be expanded through additional storage array extensions as capacity and performance needs grow.
The document provides an overview of Sun hardware products from July 2010, including:
1) A categorization of Sun products such as workstations, servers, and storage.
2) Details on Sun's server product families such as SunFire and Netra servers, and descriptions of models ranging from entry-level to high-end.
3) Sun's disk array families including the StorEdge 3000, 6000, and 9000 series with descriptions of performance, scalability, and data classification.
The document discusses optimizing Oracle and Siebel applications on the Sun UltraSPARC T1 platform. It describes how Siebel's multi-threaded architecture is well-suited to the T1 processor's ability to run multiple threads in parallel. It provides examples of consolidating Siebel environments and optimizing performance through Solaris, Siebel, and Oracle database tuning. Metrics show Siebel performing well with low CPU utilization on T1 systems.
This document provides an update on Sun products in 2007. It discusses Sun gaining market share in servers and storage systems over the previous year. Several new Sun server systems are introduced, including the Sun Fire X4600 enterprise data center server and Sun Fire X4500 hybrid data server. The benefits of the Sun Blade 8000 modular blade system are also summarized. Solaris license growth on x64 servers from HP, Dell, and IBM is shown increasing to over 7 million licenses.
This document introduces the T2000/T1000 product updates and the new T10K database server. It summarizes the key features and performance of the UltraSPARC T1 chip, and discusses how the T2000 performs well in web, application and database tiers based on several benchmark tests. It also recommends a T10K configuration using T2000 and ST6140 systems, and compares its performance and pricing favorably against alternatives from IBM.
Fujitsu m10 server features and capabilitiessolarisyougood
This document provides an overview of the Fujitsu M10 server product line. It describes the hardware features and capabilities of the Fujitsu M10-1, M10-4, and M10-4S servers including their processors, memory, I/O, storage, and virtualization support. It also discusses the reliability, availability, and serviceability features, and performance advantages for running Oracle databases and SAP workloads on the Fujitsu M10 servers.
The document discusses optimizing Oracle and Siebel applications on Sun Microsystems' UltraSPARC T1 (Niagara) platform. It provides an overview of Siebel architecture and its suitability for the T1 processor. Performance benchmarks show Siebel scaling well by taking advantage of the T1 processor's multithreading capabilities. The document also discusses various optimizations that can be done at the application, database, storage, and operating system levels to further improve performance.
This document introduces several Sun Storage disk array products, including the 6180, 6580, and 6780. It provides details on the performance and features of each product. The 6180 offers around 2x the throughput and IOPS of previous generations with response times that are shorter. The 6580 offers 1.2x the IOPS and 2x the throughput of the 6580. The 6780 offers even greater performance improvements over previous generations. The document also covers features like support for SSDs, disk encryption, and non-disruptive upgrades between products.
The document discusses various configurations for EMC VNX storage arrays. It describes a configuration for consolidating Oracle workloads using a VNX5400 array with SSD caching and storage pools for VMs, Oracle redo logs, backups and data. It also outlines a configuration for virtualization with a VNX5400 providing over 50TiB of capacity for 500 VMs. Charts show how these configurations can be expanded through additional storage array extensions as capacity and performance needs grow.
The document provides an overview of Sun hardware products from July 2010, including:
1) A categorization of Sun products such as workstations, servers, and storage.
2) Details on Sun's server product families such as SunFire and Netra servers, and descriptions of models ranging from entry-level to high-end.
3) Sun's disk array families including the StorEdge 3000, 6000, and 9000 series with descriptions of performance, scalability, and data classification.
The document discusses optimizing Oracle and Siebel applications on the Sun UltraSPARC T1 platform. It describes how Siebel's multi-threaded architecture is well-suited to the T1 processor's ability to run multiple threads in parallel. It provides examples of consolidating Siebel environments and optimizing performance through Solaris, Siebel, and Oracle database tuning. Metrics show Siebel performing well with low CPU utilization on T1 systems.
Is OpenStack Neutron production ready for large scale deployments?Елена Ежова
The document discusses the results of testing the scalability of OpenStack Neutron in large deployments. Two hardware labs with 378 and 200 nodes were used. Rally and Shaker tools tested the control and data planes. Over 24500 VMs were launched on the 200-node lab with no loss of data plane connectivity. Near line-rate throughput was achieved in data plane tests. Some issues were encountered and fixed, such as bugs and Ceph failure. The outcomes indicate Neutron can scale to large deployments.
Isc group llc gral presentation final revised 050212Joelchait
ISC offers various data storage maintenance and support services including depot repair, on-site support contracts, and professional services. They leverage over 400 field engineers globally to provide coverage across North America, Europe, Asia, and Australia. ISC is experienced in servicing a wide range of tape libraries and disk arrays from vendors such as EMC, Hitachi, HP, IBM, NetApp, and more.
Qnap Turbo Nas Business Series Presentation 2011Ali Shoaee
The document discusses QNAP's Turbo NAS business series network attached storage (NAS) devices. It provides an overview of several NAS models including the TS-259 Pro+, TS-459 Pro II, and TS-659 Pro+ and highlights key specifications. The document also summarizes QNAP's core competencies in software and hardware engineering for NAS devices and lists the main applications and features of their all-in-one NAS solutions.
The document provides an overview of the EMC VNX storage system. It includes 21 modules covering topics like unified management, storage configuration, block and file provisioning, host integration, data protection features like replication and snapshots, and file system configuration. It also lists the various VNX models that scale up to 1500 drives and 1 million IOPS and provides flexible connectivity. The document is intended as a training guide for EMC customers and includes internal links to additional learning resources.
This document provides an overview of JetStor's data storage platform. It introduces the JetStor SAN/NAS Platform which offers a single architecture for datastore, backup, disaster recovery, file storage and production storage. The platform includes various storage array models suited for hybrid-flash block storage, all-flash block storage, file storage and unified storage. Key features highlighted include RAID-EE for faster rebuild times, thin provisioning, snapshots, replication, tiering and a centralized management system. Performance comparisons show JetStor arrays outperforming other solutions. The document promotes JetStor's all-flash arrays for demanding workloads like VDI and virtualization clustering.
The document summarizes Fujitsu's SPARC Enterprise server business, current products, and future plans. It discusses Fujitsu's collaboration with Oracle to develop unified SPARC Enterprise server products that offer scalability, performance, and high availability. It highlights upcoming enhancements to the M-series, including a significant performance increase from upgrading to newer SPARC64 processors while maintaining customer investment protection.
Red Hat Storage Day Boston - Supermicro Super StorageRed_Hat_Storage
The document discusses Supermicro's evolution from server and storage innovation to total solution innovation. It provides examples of their all-flash storage servers and Red Hat Ceph reference architectures using Supermicro hardware. The document also discusses optimizing hardware configurations for different workloads and summarizes Supermicro's portfolio of Ceph-ready nodes and turnkey storage solutions.
This document provides an agenda and information for a Sun Startup Essential event. The agenda includes presentations on Sun's technology innovation, the Sun Startup Essentials program, scaling startups, and sharing startup experiences. The document also summarizes the benefits of the Sun Startup Essentials program which includes free software, support, hosting, deals on hardware, and opportunities to promote and join a startup community.
Презентация для доклада, сделанного в рамках конференции Juniper New Network Day 01.01.2014.
Докладчик -- Product Line Manager компании Juniper Дмитрий Шокарев.
Видеозапись этого доклада с онлайн-трансляции конференции вы можете увидеть здесь: http://www.youtube.com/watch?v=dJwevBdrviU&hd=1
Kiedy myślimy o nowoczesnych sieciach w Centrum Przetwarzania Danych (CPD), musimy się zmierzyć z poważnym wyzwaniem: w jaki sposób używać - rosnące prawie z prawem Moore’a - prędkości transmisji, nie tracąc jednocześnie możliwości „widzenia” co się naprawdę w naszej sieci dzieje.
Ubuntu Core was ported to the Bubblegum-96 board by building kernel, OS, and gadget snaps. Key steps included porting AppArmor patches to the Linux kernel, building the kernel snap using the board's BSP, and creating an Ubuntu Core image using the ubuntu-image tool along with the kernel, OS, and gadget snaps. A demo of a 3D cloud printing system using multiple Bubblegum-96 boards was also shown.
Ubuntu Core was ported to the Bubblegum-96 board. Key steps included creating a kernel snap with the customized Linux kernel and AppArmor patches, a gadget snap containing boot files, and an OS snap. The ubuntu-image tool was used to build an Ubuntu Core image with these snaps that could be flashed to the board to run Ubuntu Core applications in a secure, remotely upgradeable way. A demo of a 3D printing management system running on multiple Bubblegum-96 boards with Ubuntu Core was shown.
This document provides an overview of the EMC VNX storage system. It includes 14 modules that cover topics such as unified management, block and file storage provisioning, data protection features, host integration, and more. The document also lists system limits and specifications for the different VNX models. It aims to educate customers on the technical capabilities and features of the VNX platform.
TechWiseTV Workshop: Application Hosting on Catalyst 9000 Series SwitchesRobb Boyd
Watch the REPLAY right now: http://bit.ly/2YoLbt3
Enterprise networks are now dealing with massive volumes of data, with a critical need to collect and analyze this data to respond faster and deliver insightful context. Traditional approaches, in which data is processed in remote servers, will no longer work. Data can burden the network unless some context is known. Edge computing can greatly reduce the data sent to the cloud or a remote server. Collecting and analyzing the data at the edge and making decisions locally rather than in centralized servers significantly reduces the latency and bandwidth of the network.
Powered by an x86 CPU, the application hosting solution on the Cisco Catalyst 9000 switching family provides the intelligence required at the edge. Native Docker engine support on the switches will enable users to build and bring their own applications without additional packaging. Cisco DNA Center will provide consistent workflows to manage the entire application lifecycle across multiple Cisco Catalyst 9000 switches through the App Hosting dashboard.
Resources:
Watch the related TechWiseTV episode: http://cs.co/9001EIbih
TechWiseTV: http://cs.co/9009DzrjN
Abhishek Mallik has over 9 years of experience in storage administration. He has extensive experience working with NetApp storage technologies including FAS arrays, Data ONTAP, snapshots, replication, and backup software. He has worked on large projects for clients in the US like Mattel and Intel as well as in India. Currently he is the Storage Tower Lead for Mattel managing an 8 person team responsible for NetApp, EMC, and Brocade administration.
Technical Overview of Cisco Catalyst 9200 Series SwitchesRobb Boyd
TechWiseTV's Cisco Container Platform live workshop took place on July 18th.
For the first time in the industry, a single family of fixed, stackable, and modular switches are running on the same IOS-XE operating system along with a common ASIC.
Cisco’s Catalyst 9200 rounds out the lower end of its incredible Catalyst 9000 family of switches. The 9200 is designed for small, medium, and branch deployments, providing greater modularity, redundancy, and stackability than the Catalyst 2960 it replaces.
Register now.
Odoo ERP software
Odoo ERP software, a leading open-source software for Enterprise Resource Planning (ERP) and business management, has recently launched its latest version, Odoo 17 Community Edition. This update introduces a range of new features and enhancements designed to streamline business operations and support growth.
The Odoo Community serves as a cost-free edition within the Odoo suite of ERP systems. Tailored to accommodate the standard needs of business operations, it provides a robust platform suitable for organisations of different sizes and business sectors. Within the Odoo Community Edition, users can access a variety of essential features and services essential for managing day-to-day tasks efficiently.
This blog presents a detailed overview of the features available within the Odoo 17 Community edition, and the differences between Odoo 17 community and enterprise editions, aiming to equip you with the necessary information to make an informed decision about its suitability for your business.
Is OpenStack Neutron production ready for large scale deployments?Елена Ежова
The document discusses the results of testing the scalability of OpenStack Neutron in large deployments. Two hardware labs with 378 and 200 nodes were used. Rally and Shaker tools tested the control and data planes. Over 24500 VMs were launched on the 200-node lab with no loss of data plane connectivity. Near line-rate throughput was achieved in data plane tests. Some issues were encountered and fixed, such as bugs and Ceph failure. The outcomes indicate Neutron can scale to large deployments.
Isc group llc gral presentation final revised 050212Joelchait
ISC offers various data storage maintenance and support services including depot repair, on-site support contracts, and professional services. They leverage over 400 field engineers globally to provide coverage across North America, Europe, Asia, and Australia. ISC is experienced in servicing a wide range of tape libraries and disk arrays from vendors such as EMC, Hitachi, HP, IBM, NetApp, and more.
Qnap Turbo Nas Business Series Presentation 2011Ali Shoaee
The document discusses QNAP's Turbo NAS business series network attached storage (NAS) devices. It provides an overview of several NAS models including the TS-259 Pro+, TS-459 Pro II, and TS-659 Pro+ and highlights key specifications. The document also summarizes QNAP's core competencies in software and hardware engineering for NAS devices and lists the main applications and features of their all-in-one NAS solutions.
The document provides an overview of the EMC VNX storage system. It includes 21 modules covering topics like unified management, storage configuration, block and file provisioning, host integration, data protection features like replication and snapshots, and file system configuration. It also lists the various VNX models that scale up to 1500 drives and 1 million IOPS and provides flexible connectivity. The document is intended as a training guide for EMC customers and includes internal links to additional learning resources.
This document provides an overview of JetStor's data storage platform. It introduces the JetStor SAN/NAS Platform which offers a single architecture for datastore, backup, disaster recovery, file storage and production storage. The platform includes various storage array models suited for hybrid-flash block storage, all-flash block storage, file storage and unified storage. Key features highlighted include RAID-EE for faster rebuild times, thin provisioning, snapshots, replication, tiering and a centralized management system. Performance comparisons show JetStor arrays outperforming other solutions. The document promotes JetStor's all-flash arrays for demanding workloads like VDI and virtualization clustering.
The document summarizes Fujitsu's SPARC Enterprise server business, current products, and future plans. It discusses Fujitsu's collaboration with Oracle to develop unified SPARC Enterprise server products that offer scalability, performance, and high availability. It highlights upcoming enhancements to the M-series, including a significant performance increase from upgrading to newer SPARC64 processors while maintaining customer investment protection.
Red Hat Storage Day Boston - Supermicro Super StorageRed_Hat_Storage
The document discusses Supermicro's evolution from server and storage innovation to total solution innovation. It provides examples of their all-flash storage servers and Red Hat Ceph reference architectures using Supermicro hardware. The document also discusses optimizing hardware configurations for different workloads and summarizes Supermicro's portfolio of Ceph-ready nodes and turnkey storage solutions.
This document provides an agenda and information for a Sun Startup Essential event. The agenda includes presentations on Sun's technology innovation, the Sun Startup Essentials program, scaling startups, and sharing startup experiences. The document also summarizes the benefits of the Sun Startup Essentials program which includes free software, support, hosting, deals on hardware, and opportunities to promote and join a startup community.
Презентация для доклада, сделанного в рамках конференции Juniper New Network Day 01.01.2014.
Докладчик -- Product Line Manager компании Juniper Дмитрий Шокарев.
Видеозапись этого доклада с онлайн-трансляции конференции вы можете увидеть здесь: http://www.youtube.com/watch?v=dJwevBdrviU&hd=1
Kiedy myślimy o nowoczesnych sieciach w Centrum Przetwarzania Danych (CPD), musimy się zmierzyć z poważnym wyzwaniem: w jaki sposób używać - rosnące prawie z prawem Moore’a - prędkości transmisji, nie tracąc jednocześnie możliwości „widzenia” co się naprawdę w naszej sieci dzieje.
Ubuntu Core was ported to the Bubblegum-96 board by building kernel, OS, and gadget snaps. Key steps included porting AppArmor patches to the Linux kernel, building the kernel snap using the board's BSP, and creating an Ubuntu Core image using the ubuntu-image tool along with the kernel, OS, and gadget snaps. A demo of a 3D cloud printing system using multiple Bubblegum-96 boards was also shown.
Ubuntu Core was ported to the Bubblegum-96 board. Key steps included creating a kernel snap with the customized Linux kernel and AppArmor patches, a gadget snap containing boot files, and an OS snap. The ubuntu-image tool was used to build an Ubuntu Core image with these snaps that could be flashed to the board to run Ubuntu Core applications in a secure, remotely upgradeable way. A demo of a 3D printing management system running on multiple Bubblegum-96 boards with Ubuntu Core was shown.
This document provides an overview of the EMC VNX storage system. It includes 14 modules that cover topics such as unified management, block and file storage provisioning, data protection features, host integration, and more. The document also lists system limits and specifications for the different VNX models. It aims to educate customers on the technical capabilities and features of the VNX platform.
TechWiseTV Workshop: Application Hosting on Catalyst 9000 Series SwitchesRobb Boyd
Watch the REPLAY right now: http://bit.ly/2YoLbt3
Enterprise networks are now dealing with massive volumes of data, with a critical need to collect and analyze this data to respond faster and deliver insightful context. Traditional approaches, in which data is processed in remote servers, will no longer work. Data can burden the network unless some context is known. Edge computing can greatly reduce the data sent to the cloud or a remote server. Collecting and analyzing the data at the edge and making decisions locally rather than in centralized servers significantly reduces the latency and bandwidth of the network.
Powered by an x86 CPU, the application hosting solution on the Cisco Catalyst 9000 switching family provides the intelligence required at the edge. Native Docker engine support on the switches will enable users to build and bring their own applications without additional packaging. Cisco DNA Center will provide consistent workflows to manage the entire application lifecycle across multiple Cisco Catalyst 9000 switches through the App Hosting dashboard.
Resources:
Watch the related TechWiseTV episode: http://cs.co/9001EIbih
TechWiseTV: http://cs.co/9009DzrjN
Abhishek Mallik has over 9 years of experience in storage administration. He has extensive experience working with NetApp storage technologies including FAS arrays, Data ONTAP, snapshots, replication, and backup software. He has worked on large projects for clients in the US like Mattel and Intel as well as in India. Currently he is the Storage Tower Lead for Mattel managing an 8 person team responsible for NetApp, EMC, and Brocade administration.
Technical Overview of Cisco Catalyst 9200 Series SwitchesRobb Boyd
TechWiseTV's Cisco Container Platform live workshop took place on July 18th.
For the first time in the industry, a single family of fixed, stackable, and modular switches are running on the same IOS-XE operating system along with a common ASIC.
Cisco’s Catalyst 9200 rounds out the lower end of its incredible Catalyst 9000 family of switches. The 9200 is designed for small, medium, and branch deployments, providing greater modularity, redundancy, and stackability than the Catalyst 2960 it replaces.
Register now.
Odoo ERP software
Odoo ERP software, a leading open-source software for Enterprise Resource Planning (ERP) and business management, has recently launched its latest version, Odoo 17 Community Edition. This update introduces a range of new features and enhancements designed to streamline business operations and support growth.
The Odoo Community serves as a cost-free edition within the Odoo suite of ERP systems. Tailored to accommodate the standard needs of business operations, it provides a robust platform suitable for organisations of different sizes and business sectors. Within the Odoo Community Edition, users can access a variety of essential features and services essential for managing day-to-day tasks efficiently.
This blog presents a detailed overview of the features available within the Odoo 17 Community edition, and the differences between Odoo 17 community and enterprise editions, aiming to equip you with the necessary information to make an informed decision about its suitability for your business.
E-commerce Development Services- Hornet DynamicsHornet Dynamics
For any business hoping to succeed in the digital age, having a strong online presence is crucial. We offer Ecommerce Development Services that are customized according to your business requirements and client preferences, enabling you to create a dynamic, safe, and user-friendly online store.
UI5con 2024 - Boost Your Development Experience with UI5 Tooling ExtensionsPeter Muessig
The UI5 tooling is the development and build tooling of UI5. It is built in a modular and extensible way so that it can be easily extended by your needs. This session will showcase various tooling extensions which can boost your development experience by far so that you can really work offline, transpile your code in your project to use even newer versions of EcmaScript (than 2022 which is supported right now by the UI5 tooling), consume any npm package of your choice in your project, using different kind of proxies, and even stitching UI5 projects during development together to mimic your target environment.
Do you want Software for your Business? Visit Deuglo
Deuglo has top Software Developers in India. They are experts in software development and help design and create custom Software solutions.
Deuglo follows seven steps methods for delivering their services to their customers. They called it the Software development life cycle process (SDLC).
Requirement — Collecting the Requirements is the first Phase in the SSLC process.
Feasibility Study — after completing the requirement process they move to the design phase.
Design — in this phase, they start designing the software.
Coding — when designing is completed, the developers start coding for the software.
Testing — in this phase when the coding of the software is done the testing team will start testing.
Installation — after completion of testing, the application opens to the live server and launches!
Maintenance — after completing the software development, customers start using the software.
Measures in SQL (SIGMOD 2024, Santiago, Chile)Julian Hyde
SQL has attained widespread adoption, but Business Intelligence tools still use their own higher level languages based upon a multidimensional paradigm. Composable calculations are what is missing from SQL, and we propose a new kind of column, called a measure, that attaches a calculation to a table. Like regular tables, tables with measures are composable and closed when used in queries.
SQL-with-measures has the power, conciseness and reusability of multidimensional languages but retains SQL semantics. Measure invocations can be expanded in place to simple, clear SQL.
To define the evaluation semantics for measures, we introduce context-sensitive expressions (a way to evaluate multidimensional expressions that is consistent with existing SQL semantics), a concept called evaluation context, and several operations for setting and modifying the evaluation context.
A talk at SIGMOD, June 9–15, 2024, Santiago, Chile
Authors: Julian Hyde (Google) and John Fremlin (Google)
https://doi.org/10.1145/3626246.3653374
Using Query Store in Azure PostgreSQL to Understand Query PerformanceGrant Fritchey
Microsoft has added an excellent new extension in PostgreSQL on their Azure Platform. This session, presented at Posette 2024, covers what Query Store is and the types of information you can get out of it.
Graspan: A Big Data System for Big Code AnalysisAftab Hussain
We built a disk-based parallel graph system, Graspan, that uses a novel edge-pair centric computation model to compute dynamic transitive closures on very large program graphs.
We implement context-sensitive pointer/alias and dataflow analyses on Graspan. An evaluation of these analyses on large codebases such as Linux shows that their Graspan implementations scale to millions of lines of code and are much simpler than their original implementations.
These analyses were used to augment the existing checkers; these augmented checkers found 132 new NULL pointer bugs and 1308 unnecessary NULL tests in Linux 4.4.0-rc5, PostgreSQL 8.3.9, and Apache httpd 2.2.18.
- Accepted in ASPLOS ‘17, Xi’an, China.
- Featured in the tutorial, Systemized Program Analyses: A Big Data Perspective on Static Analysis Scalability, ASPLOS ‘17.
- Invited for presentation at SoCal PLS ‘16.
- Invited for poster presentation at PLDI SRC ‘16.
Transform Your Communication with Cloud-Based IVR SolutionsTheSMSPoint
Discover the power of Cloud-Based IVR Solutions to streamline communication processes. Embrace scalability and cost-efficiency while enhancing customer experiences with features like automated call routing and voice recognition. Accessible from anywhere, these solutions integrate seamlessly with existing systems, providing real-time analytics for continuous improvement. Revolutionize your communication strategy today with Cloud-Based IVR Solutions. Learn more at: https://thesmspoint.com/channel/cloud-telephony
E-Invoicing Implementation: A Step-by-Step Guide for Saudi Arabian CompaniesQuickdice ERP
Explore the seamless transition to e-invoicing with this comprehensive guide tailored for Saudi Arabian businesses. Navigate the process effortlessly with step-by-step instructions designed to streamline implementation and enhance efficiency.
OpenMetadata Community Meeting - 5th June 2024OpenMetadata
The OpenMetadata Community Meeting was held on June 5th, 2024. In this meeting, we discussed about the data quality capabilities that are integrated with the Incident Manager, providing a complete solution to handle your data observability needs. Watch the end-to-end demo of the data quality features.
* How to run your own data quality framework
* What is the performance impact of running data quality frameworks
* How to run the test cases in your own ETL pipelines
* How the Incident Manager is integrated
* Get notified with alerts when test cases fail
Watch the meeting recording here - https://www.youtube.com/watch?v=UbNOje0kf6E
Essentials of Automations: The Art of Triggers and Actions in FMESafe Software
In this second installment of our Essentials of Automations webinar series, we’ll explore the landscape of triggers and actions, guiding you through the nuances of authoring and adapting workspaces for seamless automations. Gain an understanding of the full spectrum of triggers and actions available in FME, empowering you to enhance your workspaces for efficient automation.
We’ll kick things off by showcasing the most commonly used event-based triggers, introducing you to various automation workflows like manual triggers, schedules, directory watchers, and more. Plus, see how these elements play out in real scenarios.
Whether you’re tweaking your current setup or building from the ground up, this session will arm you with the tools and insights needed to transform your FME usage into a powerhouse of productivity. Join us to discover effective strategies that simplify complex processes, enhancing your productivity and transforming your data management practices with FME. Let’s turn complexity into clarity and make your workspaces work wonders!
AI Fusion Buddy Review: Brand New, Groundbreaking Gemini-Powered AI AppGoogle
AI Fusion Buddy Review: Brand New, Groundbreaking Gemini-Powered AI App
👉👉 Click Here To Get More Info 👇👇
https://sumonreview.com/ai-fusion-buddy-review
AI Fusion Buddy Review: Key Features
✅Create Stunning AI App Suite Fully Powered By Google's Latest AI technology, Gemini
✅Use Gemini to Build high-converting Converting Sales Video Scripts, ad copies, Trending Articles, blogs, etc.100% unique!
✅Create Ultra-HD graphics with a single keyword or phrase that commands 10x eyeballs!
✅Fully automated AI articles bulk generation!
✅Auto-post or schedule stunning AI content across all your accounts at once—WordPress, Facebook, LinkedIn, Blogger, and more.
✅With one keyword or URL, generate complete websites, landing pages, and more…
✅Automatically create & sell AI content, graphics, websites, landing pages, & all that gets you paid non-stop 24*7.
✅Pre-built High-Converting 100+ website Templates and 2000+ graphic templates logos, banners, and thumbnail images in Trending Niches.
✅Say goodbye to wasting time logging into multiple Chat GPT & AI Apps once & for all!
✅Save over $5000 per year and kick out dependency on third parties completely!
✅Brand New App: Not available anywhere else!
✅ Beginner-friendly!
✅ZERO upfront cost or any extra expenses
✅Risk-Free: 30-Day Money-Back Guarantee!
✅Commercial License included!
See My Other Reviews Article:
(1) AI Genie Review: https://sumonreview.com/ai-genie-review
(2) SocioWave Review: https://sumonreview.com/sociowave-review
(3) AI Partner & Profit Review: https://sumonreview.com/ai-partner-profit-review
(4) AI Ebook Suite Review: https://sumonreview.com/ai-ebook-suite-review
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#WhatIsAIFusionBuddy?,
#HowDoesAIFusionBuddyWorks
Flutter is a popular open source, cross-platform framework developed by Google. In this webinar we'll explore Flutter and its architecture, delve into the Flutter Embedder and Flutter’s Dart language, discover how to leverage Flutter for embedded device development, learn about Automotive Grade Linux (AGL) and its consortium and understand the rationale behind AGL's choice of Flutter for next-gen IVI systems. Don’t miss this opportunity to discover whether Flutter is right for your project.
UI5con 2024 - Keynote: Latest News about UI5 and it’s EcosystemPeter Muessig
Learn about the latest innovations in and around OpenUI5/SAPUI5: UI5 Tooling, UI5 linter, UI5 Web Components, Web Components Integration, UI5 2.x, UI5 GenAI.
Recording:
https://www.youtube.com/live/MSdGLG2zLy8?si=INxBHTqkwHhxV5Ta&t=0
Atelier - Innover avec l’IA Générative et les graphes de connaissancesNeo4j
Atelier - Innover avec l’IA Générative et les graphes de connaissances
Allez au-delà du battage médiatique autour de l’IA et découvrez des techniques pratiques pour utiliser l’IA de manière responsable à travers les données de votre organisation. Explorez comment utiliser les graphes de connaissances pour augmenter la précision, la transparence et la capacité d’explication dans les systèmes d’IA générative. Vous partirez avec une expérience pratique combinant les relations entre les données et les LLM pour apporter du contexte spécifique à votre domaine et améliorer votre raisonnement.
Amenez votre ordinateur portable et nous vous guiderons sur la mise en place de votre propre pile d’IA générative, en vous fournissant des exemples pratiques et codés pour démarrer en quelques minutes.
Welcome. My name is ____________.
I'm here to talk to you today about Sun's systems, and how our expansive server line addresses the need for both vertical and horizontal computing in the data center, and why both approaches to computing is important – the differences, the requirements, and the benefits.
Welcome. My name is ____________.
I'm here to talk to you today about Sun's systems, and how our expansive server line addresses the need for both vertical and horizontal computing in the data center, and why both approaches to computing is important – the differences, the requirements, and the benefits.
Welcome. My name is ____________.
I'm here to talk to you today about Sun's systems, and how our expansive server line addresses the need for both vertical and horizontal computing in the data center, and why both approaches to computing is important – the differences, the requirements, and the benefits.
Welcome. My name is ____________.
I'm here to talk to you today about Sun's systems, and how our expansive server line addresses the need for both vertical and horizontal computing in the data center, and why both approaches to computing is important – the differences, the requirements, and the benefits.
Welcome. My name is ____________.
I'm here to talk to you today about Sun's systems, and how our expansive server line addresses the need for both vertical and horizontal computing in the data center, and why both approaches to computing is important – the differences, the requirements, and the benefits.
Welcome. My name is ____________.
I'm here to talk to you today about Sun's systems, and how our expansive server line addresses the need for both vertical and horizontal computing in the data center, and why both approaches to computing is important – the differences, the requirements, and the benefits.
Sun Delivers Extensive Scalability... Without Forced Migrations
This slide illustrates Sun's new Sun Fire Enterprise server product line based on the chip-multithreaded UltraSPARC IV processor as well as Sun's previous-generation Sun Fire V1280-15K server product line based on the UltraSPARC-III processor. Each of these UltraSPARC IV based systems offers up to twice the productivity and computational throughput of their predecessors thanks to Sun's innovative chip multithreading (CMT) technology.
Unlike other vendors, Sun accomplishes this scalability without breaking binary compatibility, delivering unprecedented investment protection. All of these servers share the same constant vision and are binary compatible to run the approximately 12,700 available Solaris applications.
The new Sun Fire Enterprise product line shares even more with a common system architecture, and common components such as the Sun Uniboard CPU/memory board. This architecture, and key components such as the Uniboard, power servers from the rack-mountable Sun Fire E2900 server all the way through Sun's flagship 72-processor Sun Fire E25K server.
Introducing the Sun Fire E2900, E4900, E6900, E20K, and E25K Servers
The new Sun Fire E2900, E4900, E6900, E20K and E25K servers from Sun are powered by new UltraSPARC IV CPU/memory Uniboards. Running across the Sun Fire Enterprise product line, each UltraSPARC IV Uniboard provides four processors (up to eight concurrent threads) and up to 32 GB of memory.
For high-end Sun Fire E20K and E25K servers, new I/O enhancements provide up to 60% improvements in I/O performance over previous-generation Sun Fire 12K and 15K servers. These I/O enhancements come from new Sun Fireplane expander boards and new hsPCI+ I/O assemblies.
Sun Fire E20K and E25K Servers: High-Throughput I/O
As mentioned, Sun Fire E20K and E25K servers provide enhanced I/O capabilities with up to 60% better I/O performance over the previous-generation hsPCI I/O assembly.
These improvements come both a new Sun Fireplane expander board and the new hsPCI+ I/O assembly. In addition to bandwidth improvements, the hsPCI+ I/O assembly supports three 33/66MHz slots and one 33MHz slot providing up to 54 66MHz slots in a single Sun Fire E25K server.
A Scalable Line of Binary-Compatible Servers
This slide illustrates the new Sun Fire Enterprise server product line based on the UltraSPARC IV processor. All of the Sun Fire Enterprise servers are configured to run with multiple CPUs, from a minimum of four processors on the Sun Fire E2900 server all the way up to a maximum of 72 processors on the Sun Fire E20K server.
With each UltraSPARC IV processor capable of running up to two concurrent threads, these servers deliver up to twice the throughput of previous-generation systems based on the UltraSPARC III processor (Sun Fire V1280-Sun Fire 15K servers). In addition to processor performance, these servers are all designed to support very large memory capacities and very high levels of sustained bandwidth across their system interconnects. As an example, the Sun Fire E25K provides up to 576 gigabytes of system RAM and provides up to 57 gigabytes per second of sustained bandwidth across its Sun Fire plane interconnect.
All of the Sun Fire Enterprise servers (except the Sun Fire E2900 server) also provide support for multiple Solaris Operating System domains, enabling multiple completely independent operating system instances to operate on a single hardware server platform.
And, of course, all of these systems are binary compatible and the robust Solaris Operating System runs across the product line. Innovative approaches to data center availability such as Sun Remote Systems (SRS) NetConnect are also supported across the product line.
Common Components
As mentioned previously, all of the Sun Fire mid-range and high-end servers share a common system architecture. In addition, many actual components are common across the product line as well. This slide illustrates the common components among Sun Fire Enterprise servers.
Common CPU/memory, I/O cards and even I/O assembles means that customers can easily move resources between different platform cabinets as needs dictate. This approach greatly simplifies the administration and maintenance of these systems and provides for simpler parts stocking requirements.
Note: The Sun Fire E2900 server is excluded from this slide because its components are physically different than those of the other Sun Fire servers, even though they share the same design
Transition: Understanding how this common architecture is leveraged across such a broad range of server products requires a brief history of interconnect technology at Sun.
Unprecedented Investment Protection: No Forced Application or OS Migrations
All of the new Sun Fire Enterprise servers deliver unprecedented investment protection through Sun's binary compatibility guarantee. Upgrading to UltraSPARC IV technology requires neither changes to applications nor forced operating system migrations as the new Sun Fire Enterprise servers support both the Solaris 8 and 9 Operating Systems.
Existing customers' investments are preserved with flexible upgrades that let them move to UltraSPARC IV technology without disruption. Board-level upgrades let customers install UltraSPARC IV Uniboards in their existing Sun Fire V1280-15K servers. Though additional hardware and software upgrades are required for these upgrades, existing systems can continue to operate.
Existing UltraSPARC III Uniboards can also be installed in new Sun Fire E2900-E25K servers. Individual Sun Fire data center servers can Sun's mixed-speed CPU support to run UltraSPARC III and UltraSPARC IV Uniboards in the same server, in the same or separate domains. With mixed-speed CPU support all processors continue to run at their rated speeds.
Customers can also elect to upgrade entire previous-generation systems to Sun Fire Enterprise servers to take advantage of full factory integration and testing of components.
Note: Sun Fire V1280 and Sun Fire E2900 servers share common CPU/memory boards but that these are not physically the same as the Uniboards that run in the rest of the product line.
Full Hardware Redundancy: Redundant, Hot-swappable Components
To enable high availability, as well as Dynamic System Domains and Dynamic Reconfiguration, Sun's mid-range and high-end server product line provides full hardware redundancy and key hot-swappable components. Two kinds of redundancy are provided in Sun server systems:
N+1 redundant subsystems are truly fault-tolerant in that the subsystem can suffer a failure and remaining components can continue to support the system without affecting operation. Examples of N+1 redundant subsystems in Sun Fire Enterprise servers include redundant system controllers, the system clock, power supplies, and fans.
Redundant components, in contrast, may cause a reboot of a domain in the case of failure but their redundancy allows the system to recover in a stable state following the failure. Sun's Automatic System Recovery (ASR) feature allows systems to reboot automatically after a failure, configuring around any failed components in the process. Examples of redundant components include CPU/memory Uniboards, MaxCPU boards, and I/O assemblies. Even the Sun Fireplane ASICs are redundant so that systems can recover from ASIC failures and continue to operate.
Sun Fire Enterprise systems also support both redundant network and disk interfaces along with software to manage them.
Fifth-Generation Dynamic System Domains
The discussion of Sun's Sun Fire Enterprise product lines begins with the key technology that sets them apart in the marketplace. Dynamic System Domains represent an industry-leading technology, now in its fifth generation that allows Sun's Enterprise servers to be divided into fault-isolated domains, each with their own system resources and separate running instance of the Solaris Operating Environment.
Because faults are isolated within each domain, failing software or hardware does not affect the stability of other domains running on the system. In addition to running a separate instance of the Solaris Operating Environment, each domain also has its own security, and assignable administrative roles. This approach lets multiple groups (or even companies) share a single physical hardware system without risk of accidental security breaches or other inadvertent corruption.
Dynamic System Domains can also be dynamically reconfigured in response to changing demands — either automatically or manually — literally allowing hardware resources to be added or removed from running domains on an as-needed basis. Processors and memory are configured independently from I/O so that administrators can make fine-grained resource adjustments.
Server Virtualization: Granularity at Every level: Hardware, Operating System, and Application
This slide illustrates how Solaris, dynamic reconfiguration, and fault-isolated dynamic system domains can be combined to help drive up utilization in a consolidated environment. Three domains are shown, each running a different version of the Solaris Operating System. Solaris Containers combined with Dynamic System Domains enable a new way to partition systems to achieve higher utilization. The Solaris Next Operating System will enable even more complete fault isolation with trusted containers (next slide)
Sun's servers already offer unmatched dynamic configurability that combines closely-coupled hardware resources with flexible resource management software to efficiently support:
Resource virtualization
Dynamic resource provisioning
Large, capacity workloads
Hosting of virtual horizontal servers
High availability requirements
By consolidating onto larger servers with these capabilities, customers can experience drastically-improved resource utilization.
Fifth-Generation Dynamic Reconfiguration
Also in its fifth generation, Sun's Dynamic Reconfiguration technology allows hardware components to be added and removed from running domains. CPU/Memory Uniboards, PCI cards, and even entire I/O assemblies containing multiple PCI cards can be added or removed, all without requiring the domain to reboot.
This key technology helps enable advanced features such as concurrent repair and maintenance, hot CPU upgrades, and mixed-speed CPU support. Because resources can be added or removed from running domains, system downtime is no longer required for simple upgrades or maintenance. As new or faster processors become available, they can simply be added to running domains without requiring additional down-time.
Sun also provides industry-standard WBEM-based Dynamic Reconfiguration (WDR) that allows system resources such as CPU, memory, I/O assembles, and I/O cards to be visible on a WBEM-aware network as manageable resources. (WBEM stands for Web-Based Enterprise management.) This technology enables centralized resource management through a programatic interface that can be used by remote management applications (such as BMC Patrol). Adding to Sun's previous automatic Dynamic Configuration (ADR), this capability enables automated resource management based on either scheduled or programatic controls.
Solaris Trusted Containers: Optimizing System Resource Management
Complementing Dynamic System Domains, Solaris Trusted Solaris Containers offer a new way to optimize system resources with arbitrary granularity:
Security and fault isolation: Applications are protected from error propagation or security intrusions since each Trusted Container is an isolated, virtual system. Each Trusted Container is shielded from other tenants on that server and each tenant can only see or touch processes in their Trusted Container
Taking Cost Out: Trusted Containers share a single instance of the Solaris Operating System, lowering administrative costs. IT departments can greatly accelerate their server consolidation efforts and reduce costs faster with the flexibility of Trusted Containers. Trusted Containers are designed to have very low system overhead focusing system resources on the workload, not the operating system.
Investment protection: Existing server settings are easily moved to Trusted Containers since each container allows its own IP address, network namespaces, users, disk, etc. Trusted Containers run on existing Sun systems as well as new SPARC, x86, and Opteron systems. Mission-critical applications run at predictable and protected resource levels, are protected from failures of applications in other Trusted Containers, and can be independently rebooted if necessary.
Increased flexibility: Trusted Containers and their resources can be easily configured and manage themselves dynamically via business rules that are set and easily tuned by the administrator. Sharing of unused resources is managed dynamically, automatically maintaining agreed-upon service levels. Usage data is tracked by the Trusted Container allowing IT to demonstrate, and even bill for system resources that are actually delivered.
Sun Cluster Solutions: Sun Cluster 3.0
Sun Cluster solutions delivers high availability through automatic fault detection and recovery along with increased scalability, helping to ensure that mission-critical applications and services are available when needed. Sun Cluster software allows up to eight nodes in a tightly coupled cluster — enough to handle growing numbers of simultaneous users and access to large databases. With Sun Cluster software, administrators can add or remove nodes while online, and mix and match servers to meet specific needs. Individual domains running on Sun Fire mid-range or high-end servers can participate in Sun Cluster 3.0 implementations.
With cluster functions integrated into the Solaris kernel, Sun Cluster software extends the Solaris Operating Environment, enabling core Solaris services — devices, file systems, and networks — to operate seamlessly across a tightly coupled cluster. Global cluster file services, device services, and scalable networking services enable full Solaris compatibility for existing applications.
Enhanced availability for core services such as file and network service allows existing Solaris applications to benefit from higher availability, more localized failure containment, and faster failover.
Welcome. My name is ____________.
I'm here to talk to you today about Sun's systems, and how our expansive server line addresses the need for both vertical and horizontal computing in the data center, and why both approaches to computing is important – the differences, the requirements, and the benefits.
Welcome. My name is ____________.
I'm here to talk to you today about Sun's systems, and how our expansive server line addresses the need for both vertical and horizontal computing in the data center, and why both approaches to computing is important – the differences, the requirements, and the benefits.
This slide provides an overview of the key functions of Sun StorEdgeTM 3310 NAS. The top picture shows the front view with the bezel on. The middle picture show the front view, bezel removed, exposing the 12 hot swap disk drives. The bottom picture show the rear view, exposing the RAID controller, power supplies and connectivity ports.
Key points:
This is a new generation of storage array that was designed to meet a wide range of application demands. It can do this because it provides an incredible amount of flexibility. And what's unique about the Sun StorEdge™ 6120 array is that it's delivered with a suite of comprehensive software tools to help ensure easy manageability and high data availability.
This slide shows some detailed specs on the L25 module. The modules supports DLT 8000, SDLT 220, SDLT 320 and LTO Ultrium 1 & 2 tape drives.
The L25 use two removable magazines, each with 10 DLTtape or 12 LTO Ultrium cartridges (you cannot mix and match DLTtape and LTO Ultrium in the same library module). There are two fixed slots that can be used for data or cleaning cartridges. A single L25 module supports up to two tape drives and 21 DLTtape or 25 Ultrium cartridges. If you stack seven L25 modules in a Sun rack you get up to 14 tape drives and 147 DLTtape or 175 LTO Ultrium cartridges. Thus, you get up to 5TB native with one module and 35TB native with seven modules (using LTO-2) . Up to 60MB/sec native performance is achieved with two drives in one L25 module and 420MB/sec native performance is achieved with 14 drives in seven L25 modules (using LTO-2).
Additionally, magazines in the L25 are interchangeable with the L100 and there are no “right or left” side magazines. This eliminates human error and allows for easy bulkloading and removal of cartridge magazines to offsite locations for vaulting purposes or integration in other modules.
Many competitors in the L25's market do not come close to the density, performance, and simplicity offered in this product. Sun is clearly leading the market segment with the L25 tape library.
This slide shows some detailed specs on the L100 module. The modules supports DLT 8000, SDLT 220, SDLT 320 and LTO Ultrium 1 & 2 tape drives.
The L100 uses eight removable magazines, each with 10 DLTtape or 12 LTO Ultrium cartridges (you cannot mix and match DLTtape and LTO Ultrium in the same library module). There are four fixed slots that can be used for data or cleaning cartridges. A single L100 module supports up to five tape drives and 84 DLTtape or 100 Ultrium cartridges. With six tape drives, one magazine and fixed slot slot is deleted providing storage up to 73 DLTtape or 87 Ultrium cartridges. If you stack two L100 modules in a Sun rack you get up to 10 tape drives and 168 DLTtape or 200 LTO Ultrium cartridges. Thus, you get up to 20TB native with one module and 40TB native with two modules (using LTO-2) . Up to 180MB/sec native performance is achieved with two drives in one 100 module and 360MB/sec native performance is achieved with 12 drives in two L100 modules (using LTO-2).
Additionally, magazines in the L100 are interchangeable with the L25 and there are no “right or left” side magazines. This eliminates human error and allows for easy bulkloading and removal of cartridge magazines to offsite locations for vaulting purposes or integration in other modules.
Many competitors in the L100's market do not come close to the density, performance, and simplicity offered in this product. Sun is clearly leading the market segment with the L100 tape library.
Welcome. My name is ____________.
I'm here to talk to you today about Sun's systems, and how our expansive server line addresses the need for both vertical and horizontal computing in the data center, and why both approaches to computing is important – the differences, the requirements, and the benefits.
Welcome. My name is ____________.
I'm here to talk to you today about Sun's systems, and how our expansive server line addresses the need for both vertical and horizontal computing in the data center, and why both approaches to computing is important – the differences, the requirements, and the benefits.
Given these challenges, customers are asking for systems that optimize workloads depending on the applications they are running, at the best price points and at maximum performance.
Depending on the application, the best approach could be vertical or horizontal computing, or typically a combination of both.
This slide illustrates the reach of systems from the heart of the data center to the network edge.
The back-end of the data center will almost always require vertical scalability - large SMP servers – for what we call the data center and application tiers.
For workloads running from the edge of the network out to the client tier, horizontally scaled servers are often the most appropriate choice.
For high performance technical computing workloads, which span the spectrum from 64-bit graphics workstations to large SMP data base servers, both vertical and horizontally scaled servers come in to play depending on the specific need.
This slide illustrates the differences between vertical and horizontal computing.
Vertical servers are large SMP systems with more than four CPUs. There is only one instance of the OS covering the processors, memory and I/O components, generally contained within a single chassis or box. The interconnect is commonly a centerplane or backplane that is tightly coupled, low-latency, high-bandwidth and cahe coherent (which means it maintains information on location of all data regardless of cache or memory location). Resources are added inside the box by adding system boards into the system. Memory is shared, meaning that all processors and all I/O connections have equal access to memory. Memory appears to users as one large chunk.
Horizontal computing is the ability to grow the infrastructure for a given application set by adding discrete compute capacity to a pool of clustered, networked servers. Applications suitable for horizontal scaling demonstrate linear increase in capacity with the number of servers in the pool, each running its own OS image, and each with its own processor and memory. Capacity is increased by adding more servers or nodes.
The workloads, or kinds of applications running in this edge enviroment that we are optimizing the design of our horizontal systems to fall into 3 categories:
At the client we have traditional Tier 0 or network infrastructure services such as: load balancing, SSL accelerators and SSL/SSH encryption are located here. On the client side, you're looking at departmental Web file and print servers, servers for staging applications, servers for locally caching content and e-mail, some access mechanisms and security mechanisms such as firewall and VPN servers, file and print servers, group calendaring applications, and group collaborative computing.
At the Edge or Tier 1 you have web infrastructure services which provide rack and stack web services, caching services, DNS services, directory services and grid computing.
Tier 2 or the application tier includes services like Email, network management, portal computing, streaming media and grid computing.
There are various types of applications that are best suited for vertical systems. Applications that are stateful, that require significant amounts of data, users, and large-scale internal data communication are ideal for vertical servers. It typically depends on the workload size rather than the type of application.
In the Data Center tier, vertical servers are ideal for very large databases, online transaction processing, mission-critical applications of CRM, SCM, ERP, and datawarehousing and business intelligence.
In the application tier, vertical servers are ideal for applications like:
-E-mail and groupware
-Web application servers
-High-performance compute farms
-Electronic commerce applications
-Business integration applications (EAI)
In HPTC, vertical servers are ideal for those applications that have lots of threads that are dependent on and communicate with each other and/or require lots of shared memory.
There are many different benchmarks to demonstrate performance, this slide shows parts of a datacenter that they test. This is one of the reasons that Sun performs a wide variety of benchamrks.
It is important to note that when a benchmark tests lots of layers it really only stresses one tier -- for most benchmarks that is the database tier. For TPC-W it now looks like one type of Image servers in the application tier is stressed (so this benchmark might not reveal much useful information for a customer.
The TPC-W is so new and there is so much optimizations that are going on a people learn to use this benchmark it is difficult to say what tier is most critical for this benchmark.
Welcome. My name is ____________.
I'm here to talk to you today about Sun's systems, and how our expansive server line addresses the need for both vertical and horizontal computing in the data center, and why both approaches to computing is important – the differences, the requirements, and the benefits.
Welcome. My name is ____________.
I'm here to talk to you today about Sun's systems, and how our expansive server line addresses the need for both vertical and horizontal computing in the data center, and why both approaches to computing is important – the differences, the requirements, and the benefits.
Welcome. My name is ____________.
I'm here to talk to you today about Sun's systems, and how our expansive server line addresses the need for both vertical and horizontal computing in the data center, and why both approaches to computing is important – the differences, the requirements, and the benefits.
The Ultra SPARC IIIi processor provides a competitive advantage through 100% binary compatibility, allowing for investment protection and simplification of software licensing maintenance, management of costs and flexibility in upgrades.
UltraSPARC IIIi processor is designed with features including integrated L2 cache, memory controllers and 16 GB of addressable memory, all of which lead to lower system cost , lower power consumption and real-world balanced performance with enterprise-class reliability, availability and serviceability (RAS).
Only Sun has maintained 15 years of binary compatibility across processor generations allowing customers to protect their huge investments in the UltraSPARC and SolarisTM platform and related costs.
The Sun Fire V210/240 and Netra 240 servers are powered by the UltraSPARC IIIi processor and were specifically designed to meet the high throughput demands of the web and application tier with Enterprise-level RAS, while holding the line on power consumption and price.
Welcome. My name is ____________.
I'm here to talk to you today about Sun's systems, and how our expansive server line addresses the need for both vertical and horizontal computing in the data center, and why both approaches to computing is important – the differences, the requirements, and the benefits.