NEC 1320Xf/1160Xf, 5800 Series, 1000 Series, 1080Rf Memory Mirroring, Partial Chipset degradation

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Memory Mirroring

Continuous operation even in the event of a non-correctable memory error

The Express5800/1000 series server supports high-level memory RAS features to ensure that the server can rapidly detect memory errors, reduce multi-bit errors and continually operate even in the event of memory chip or memory controller failures. Memory scan, memory chip sparing (SDDC*) and memory scrubbing are examples of those features.

A memory scan is run on all loaded memory modules at each OS

boot. If the system detects a memory failure, the failed component is immediately isolated and detached from the system preventing possible downtime during business operations.

Chip sparing (SDDC*) memory is a memory system loaded with several DRAM chips that can correct errors at the chip level. If a failure were to occur in the memory, the error can be corrected immediately to allow for continuous operation.

CPU

CPU

 

CPU

CPU

Cell

Memory

 

Memory

 

Controller

I/F

 

Controller

 

 

Memory

 

Memory

Mirror

 

I/F

 

Controller

 

 

 

 

 

Memory

Mirror

Memory

 

 

I/F

Controller

 

 

Memory

 

Memory

 

 

I/F

 

Controller

 

Memory

Image

Data 0

 

Data 2

 

 

 

 

 

 

Data 1

 

Data 3

 

 

 

 

 

 

Data 0

 

Data 2

 

 

 

 

 

 

Data 1

 

Data 3

 

 

 

Memory scrubbing checks memory content regularly (every few milliseconds) during operation without affecting performance. When an error is detected, it is corrected and then reported. The scrubbing function is effective in detecting errors in a timely manner which ultimately results in the reduction of multi-bit errors.

Memory mirroring takes place continuously, where the same data is written onto 2 separate memory blocks instead of 1 (available only on the 1160Xf and 1320Xf). In the event of a non-correctable error, due to the fact that the data exists on two independent blocks, operations are able to continue without interruption.

 

 

Unit of degradation

Components covered by

Components covered by

on the Express5800/

the memory mirroring

the standard chip sparing

1000 Series

 

This construct allows for continuous operation through all non- correctablememory errors, not limited to the memory themselves, but also in the memory interfaces and the in memory controllers.

* Single Device Data Correction

Partial Chipset degradation

Avoid multi-partition shutdowns resulting from chipset failures

In certain instances when multiple server partitions share a common crossbar controller, effects of a single partition failure may result in a multi-partition shutdown. To resolve this issue, the Express5800/1000 series servers have been designed to allow for the partial degradation of chipsets.

Within each of the LSI chips, which make up the chipset, multiple LSI sub-units exist. These sub-units are connected to other sub- units located on separate LSI chips. The combined sub-units together make up single partition. If an error were to occur on an LSI sub-unit, that sub-unit alone can be degradated to isolate the failure to a single partition, thus preventing the failure to spread to other partitions.

Furthermore, the downed partition can automatically reboot itself, after isolating the failed subsystem, to resume operations in a degradated mode without the intervention of a system administrator. This is made possible, on the Express5800/1000 series servers, by the redundant paths between the Cells and the IO.

0

Cell 0

Partial degradation

Failure

Unit

SubUnit

Crossbar

Sub

Sub

Controller

A

Unit

Unit

 

PCIBox

0

01 n specifies the partition number

Sub-units within the chipset Sub Additional sub-sets exist in Unit actuality

1

Cell 1

Sub

Sub

ControllerCrossbar

Unit

Unit

Sub

Sub

B

Unit

Unit

 

PCIBox

1

0Failure occurs at the sub-unit of the crossbar controller.

Partition 0 is shutdown so that the failed component can be isolated. Partition 0 is rebooted

1Not affected

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Contents NEC Express5800/1000 Series Resource virtualization through Floating IO Crossbar-less configuration Available only on 1080RfVery Large Cache VLC Architecture Dedicated Cache Coherency Interface CCIA3 Chipset CellDual-Core Intel Itanium processor Compiler Features for performance improvementIntel Itanium processor supported compiler Directory Based Cache Coherency Crossbar-less configurationVLC Architecture Dedicated Cache Coherency Interface CCIRAS Design Philosophy Framework for hardware, firmware and OS error handlingPartial Chipset degradation Memory MirroringComplete modularization and redundancy Highly Available Center PlaneCell card Diagnostics of the error detection circuitsSubstantial strengthening of data integrity Express5800/1000 SeriesInternet Enhanced error detection of the high-speed interconnectTwo independent power sources Realization of a mainframe-class platform serviceabilityMulti OS support / Rich application lineup Superior standard chassis configurationInvestment Protection Resource virtualization through floating I/O12MB Processor Dual Core Intel Itanium processorL1 Cache/core 16KB I / 16KB D L2 Cache/core 1MB I / 256KB D L3 Cache/core

5800 Series, 1000 Series, 1320Xf/1160Xf, 1080Rf specifications

The NEC 1080Rf, 1000 Series, 1320Xf/1160Xf, and 5800 Series are advanced solutions designed to deliver superior performance, efficiency, and versatility in a variety of applications. These models incorporate cutting-edge technologies, making them suitable for diverse usage scenarios, including professional broadcasting, industrial applications, and high-demand environments.

The NEC 1080Rf series is notable for its exceptional resolution and image quality, offering full HD capabilities that ensure clarity and sharpness in every frame. Its robust construction allows it to perform reliably in challenging conditions, making it ideal for outdoor events and installations. With a focus on energy efficiency, the 1080Rf series employs innovative technologies that reduce power consumption while maintaining high brightness and contrast levels.

The 1000 Series represents a versatile line of displays suitable for various settings, from corporate environments to retail spaces. Key features include a range of sizes, ensuring flexibility to meet specific requirements. Its user-friendly interface allows for easy operation and management, streamlining the display setup process. Advanced connectivity options, including HDMI and DisplayPort, facilitate seamless integration with other devices and systems, enhancing interoperability.

The 1320Xf and 1160Xf models are renowned for their superior display performance and color accuracy. These models utilize cutting-edge LED technology, which ensures vibrant colors and enhanced brightness. The 1320Xf model stands out for its ability to support higher resolutions, making it particularly suitable for applications that require detailed imagery, such as medical imaging and high-end graphics presentations. Both models feature exceptional durability and reliability, catering to the needs of intensive use environments.

The 5800 Series is designed for professional-grade applications, featuring high-resolution displays that excel in demanding visual scenarios. This series is equipped with advanced calibration technologies, ensuring color precision and consistency across all outputs. Moreover, the 5800 Series is designed with a robust thermal management system, extending its lifespan and guaranteeing consistent performance even in high-usage situations.

Together, these cutting-edge series exemplify NEC's commitment to innovation, providing tailored solutions across various sectors. With a focus on performance, reliability, and energy efficiency, they are built to meet the needs of today's dynamic and evolving market. Whether for corporate, industrial, or creative applications, NEC's displays offer the technological edge necessary to elevate visual communications to new heights.