Z/architecture

Z/architecture – Single frame IBM Z 15 Main Frame. Models with large capacity can have a total frame. This model has a blue ACT compared to the LINXON III model with orange highlights.

IBM Z 14 Main Frame. It is different by the LINXON model and the Blue Acts of the door.

Z/architecture

A pair of IBM main frames. On the left is the IBM Z13 (when the name is changed, the Z13 line is displayed on the door). IBM LINXON is Rockhoper on the right.

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All Z/Architecture is a family name used by IBM on MainFrame computer. In July 2017, as the second clothing of the product, the official family was replaced by IBM Z from the IBM Z system. IBM Z Z17 and Z16, Z15, Z14 and Z13 (IBM Z Systems/IBM System Z Name), IBM Z 10 models (usually Z10 models), IBM ZD 10 models (general use). The Z900 and Z 990 Gores of the main frame).

Zersuries, ZeterPrise, System Z and IBM Z families are named as availability. Z is used for zero down time. The system is made of extra components, and hot disorders for continuous operation are possible.

The IBM Z family is completely consistent. In fact, the QRT system is a direct linear desk of the system/360, published in 1964, and since the 1970s, the system/370. Many applications written for such a system can still be executed in the latest IBM Z systems.

Virtualization is required with the default LT of the IBM Z system. The first level is provided by virtualization processor resources and system administrators (PR/SM) to distribute one or more logical partitions (LPAR). Each LPAR supports a variety of operating pet systems. A hypervisor called Z/VM is a second layer virtualization in LPR, creating many virtual machines (VMs) to support LPR. Resources are allocated. The first layer of IBM Z Z Virtualization (PR/SM) allows the Z machine to execute the limited number of LPR (IBM Z 13). The PR/SM can be considered as a virtual “bare metal” server because the CPU can only use CPUs to individual LPRs. The Z/VM LPR allocated to PR/SM LPR can operate a plurality of virtual machines as long as there is enough CPU, memory and I/O resources arranged with the system for the desired operation, dose and processing amount.

Z Gallery / O-office Architects

The PR/SM and hardware features of IBM Z can dynamically replace computing resources to meet the demand for the work load. CPUs and memory resources are dynamically assigned to the system and are valid and can be added by LPRS. I/O resources such as IP and SAN ports can also be dynamic. They are virtualized and are divided into all LPRs. The hardware component that provides this capacity is called a channel sub system. Each LPRA “View” or “View” virtualized I/O port can be configured as “View” to set the desired “sharing” or isolation. This virtualization feature can greatly reduce I/O resources by sharing and developing use.

Many IBM Z models have been posted after leaving System/390. This can be grouped into a family with similar architectural characteristics.

The new architecture is expected to focus on AI accelerators and optimization. The 43B transistor dye of Talum II has an on -chip DPU.

The Z14 system can have up to 240 processing devices (PUS) cores, of which 170 applications and operating pet systems can be composed of customer specifications, 32TB can be used as a useful redundant array independent memory (RIM), and some can be composed of virtual flash memory. Each PU can be classified into an integrated function for the CPRL processor (CP), an integrated firmware processor (IFP), Linux (IFL) processor, and an integrated information processor (ICF) processor (ICF) processor (SAP). The Z14 processor has a hardware auxiliary encryption function (AES, DES, TDE, SHA, Random Number Gator), so the focus of the IBM Z system is a wide range of creation.

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Z13Z 13 chip based on 5GHz 8 core processors. The Z13 system may have up to 168 processing devices (PU) cores, of which 141 applications and operating pet systems can be configured according to customer specifications, and can be up to 10.144 TB (useful) of duplicate independent memory (RIM). Each PU can be classified as a CPRL processor (CP), an integrated firmware processor (IFP), a Linux (IFL) processor, an integrated information processor (ZIIP), an internal coupling function (ICF) processor (SAP). The Zaap (Z Application Assistance Processor) function of the previous Z/architecture processor is now integrated part of Z 13’s ZP.

Z13 and Z 13 are the last Z system server that presents a new vector architecture and supports the operation of the operating net system in the ESA/390 architecture mode.

This line has two clothes: the first clothing is published in 2010/2011 as 114 Single-Rack (“Business Class”) and 196 (“Terprise Class”) models; The second clothing, the main line 12, published in 2012/2013, was branded, and two model lines were published: Single ZBC 12 and Dual Layer ZEC 12.

IBM ZeterPrise EC 12. The interior is revealed to see other interiors.

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Launched the first converted infrastructure solution based on the main frame technology. IBM TorPrise Cloud System Dub,

This new product offers Fur IBM main frame hardware, S. Software FTWARE and Storage, and are designed to compete with competitive ring fur of VCE, HP and Oracle. According to IBM, it is the most expandable Linux server with up to 6,000 people.

ZeterPrise Business Class 12-ZBC12 was introduced in July 2013 and is available in two hardware models: H06 and H13. You can provide services to the mid -ray business Segmt and configure the Linux Virtualization Server in a version called Terprise Linux Server. H13 has 18 processor core and up to 13. There are nine out of H06 and six are six.

The ZETERPRISE BC12, released in July 2013, runs 18 ZEC 12 processors on 4.2GHz and up to 489GB RAM, based on up -scaled Z114. It is provided in two models with H06 and H13 with 1 and 2 processing drawers, respectively. ZBC can connect to the 12 ZBX expansion system. IBM

Why Gen Z Is Changing The Identity Of Architecture

ZeterPrise Terprise Class 12-ZEC12 is a high-D dual rack solution and is available in five hardware models: H20, H43, H66, H89 and HA1. [28] The model number depends on the number of cores that can be used for customer workloads. The additional cores are booked as preliminary, SAP and IFP.

The ZeterPrise EC12 ZEC introduced in Gust 2012 is based on 12 chips and is a 5.5GHz 8 -core out order CISC -based Z/architecture processor. ZEC 12 can have up to 120 cores, of which 101 is configured to operate the working pond system and application.

The maximum number of core available in the specific model of ZEC 12 is occupied by the name of the model. For example, the H20 has 20 cores for direct customer use, and has a SPARE and a special I/O processor core type, and a system support processor. Each cores can be classified into Ctrl processors (CP), Linux (IFL) processors, zaap (Application Assist Processor), Z10 Integrated Information Processor (ICF) processor (ICF) processor or additional system support processor (SAP). ZeterPrise EC12 allows up to 3TB (useful) in the overlapping field of independent memory (Raum).

The capacity of the EC12 is 50% higher than the Z 196 (up to 78,000 mIP) and supports the transmes and the Flash Express-integrated SSD to improve paging and other I/O performance.

Zos Connect Intro

The ZEETERPRISE, published in July 2010 with the Z 196 model, is designed to provide both main frames and distributed server technologies to the integrated system. The ZeterPrise system includes three components.

ZeterPrise MainFrame function -Management effective and dynamic resource allocation, service potential -Other systems and Micros of X86 are designed to develop Micros .ft Windows or other systems and workloads working in Linux.

ZeterPrise BlendRactor Extension (ZBX) is an infrastructure component that hosts the optimal speaker, such as an device that can be managed as a single main frame, IBM Bladactor server and device. ZBX supports a personal high -speed internal network connected to the Ctrl processing complex to reduce the need for networking hardware and provide high security.

IBM ZeterPrise Unified Resource Manager System Z and ZBX are integrated into single virtualized systems to provide integrated and integrated management in the ZeterPrise system. Various systems can make system bottles or failures into IDTIFI, and breakdowns can dynamically reassemble system resources or reduce application problems. Unified Resource Manager AERGIES Monitoring and Management, Resource Management, Increased Security, Virtual Networking and provided

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