白皮书

Explore thought leadership surrounding embedded computing technologies, and gain in-depth knowledge about the industry and open standards trends.

Delivering Carrier Grade OCP to Telco Data Centers

Delivering Carrier Grade OCP to Telco Data Centers

The extensive use of virtualized environments by data centers and cloud providers has communications service providers (CSPs) considering ways to use virtualization and cloud technologies to reduce costs, increase efficiency, and improve service agility. For CSPs, such a shift requires a carefully managed transition from the dedicated network appliances they use today to open systems based on more economical commercial off-the-shelf (COTS) servers and open software solutions.

Having different requirements than large-scale cloud providers and data centers complicates this transition. CSPs must ensure that the core hardware platforms they deploy deliver the performance, reliability, serviceability, and regulatory and safety compliance their industry requires.

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Multi-Access Edge Computing Solving Tomorrow’s Problems Today

Multi-Access Edge Computing Solving Tomorrow’s Problems Today

Multi-access edge computing (MEC), originally conceived for 5G networks, is solving many of the challenges faced by service providers today. It offers opportunities for operators that want to improve their revenue stream, bolstering ARPU while lowering the load on their networks.

This white paper analyzes these challenges and their solutions, as well as the business benefits, of using an MEC architecture. Critically, the paper examines the ways that operators can not only save money, but also make money from the opportunities that MEC enables. Finally, real application examples and system architectures move the discussion from theory to reality, with solutions that can be deployed today.

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Server Based Solutions for Self-Organizing Networks

Server Based Solutions for Self-Organizing Networks

The evolution of networks across generations of evolving protocols has led to a complex mixture of deployed wireless systems. Development towards 5G and the increasing use of heterogeneous networks (HetNets) to improve coverage with fill-in solutions has created an environment of growing complexity, whose management and resource allocation has become a key issue for network operators.

This paper presents the ideas and initiatives driving self-organizing networks (SONs), a key enabler for effective 5G deployment. The authors look closely at the challenge of a data center-based eNodeB pool in a Cloud RAN (C-RAN) context and present a possible solution based on open standard technologies.

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Trends and Drivers in Fail-Safe Architectures for Rail Systems

Trends and Drivers in Fail-Safe Architectures for Rail Systems

The market for embedded computing technologies in rail applications is following a similar trend as has been seen in other embedded market spaces. A layer of the technology value chain becomes ‘table stakes’— delivering limited competitive advantage to a point that it makes sense for application providers to reallocate R&D resources to differentiating elements of the end product and buy the base technology from companies who are dedicated to that technology. We are witnessing this transition in the rail market for embedded computers that are certified to safety integrity level four (SIL4), the highest level. These embedded computers offer a certified, commercial offthe-shelf (COTS) generic fail-safe platform allowing rail application developers to focus their R&D resources on differentiating applications.

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Maximizing Safety Without Compromising Reliability

Maximizing Safety Without Compromising Reliability

A programmable electronic system can be defined as functionally safe if it operates correctly and predictably, so that even in the event of failures it remains safe for persons and the environment. Such a system can be defined as reliable if it performs its function without failure for a specified period of time. These attributes can lead to conflicting requirements and very different designs.

For example, to achieve high levels of functional safety, one method is to compare two or more channels as a diagnostic so that if a difference is detected, the system enters a “fail-safe” state and stops delivering its prescribed service.

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Enabling More Versatility and Higher Performance for VNFs with the MaxCore™ Platform

Enabling More Versatility and Higher Performance for VNFs with the MaxCore™ Platform

The Artesyn MaxCore™ platform offers a versatile and dense architecture to achieve maximum compute and media processing density. Through its use of Artesyn technology microserver cards, Artesyn media processing PCI Express cards and third party PCI Express cards, it offers maximum flexibility, maximum density per rack unit (RU), and unmatched innovation in design for both datacenter and carrier grade applications.

This white paper will spell out the benefits of the MaxCore platform and explain how it is explicitly designed to meet the challenges of the emerging NFV/SDN era. The paper will examine how the MaxCore chassis is superior to others in its power, versatility, flexibility and efficiency.

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Digital Broadcast Video Streaming

Digital Broadcast Video Streaming

Broadcast network operators and communications service providers have to make digital video broadcasting meet a number of contradicting requirements in order to maintain its growth trajectory and monetize the associated traffic. The main contradiction lies in the simple fact that the underlying technology is based on a point-to-point technology trying to mimic one-to-many broadcast technology.

However, broadcasting via IP networks can offer significant advantages as well as the ability to provide additional services around the actual broadcast, allowing access to extended, new customer groups and new audiences.

This white paper outlines the technical challenges facing video over IP business models and the associated issue of intellectual property protection, discusses possible solutions, and offers a route to success in this dynamic and fast-changing market.

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Virtual Video Transcoding in the Cloud

Virtual Video Transcoding in the Cloud

The increasing density and high-quality processing demands from video applications is pushing broadcast and communications networks to the limit. Adding more equipment to handle these video streams is not economically viable. What's more, operators, service providers and content providers see the benefits of using standard servers in the cloud, and want to move away from special appliances or dedicated hardware. But standard servers currently are not optimized for video transcoding in the cloud.

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Broadcast Video white paper

Cost-Effective Deployment of High-Quality Video Processing for Broadcast Using Off-the-Shelf Technology

 

This white paper outlines the trends driving the need for high-quality video transcoding and encoding and offers an alternative to conventional host media processing (HMP).
Using a PCI Express video accelerator and embedded broadcast video processing firmware, this approach offers dramatically improved performance, taking up less space, consuming less power and costing less. Furthermore, it shows how you can achieve that level of flexibility in a server-based environment.
Specific application examples demonstrate the performance and cost virtues of this approach.
This white paper outlines the trends driving the need for high-quality video transcoding and encoding and offers an alternative to conventional host media processing (HMP). Using a PCI Express video accelerator and embedded broadcast video processing firmware, this approach offers dramatically improved performance, taking up less space, consuming less power and costing less. Furthermore, it shows how you can achieve that level of flexibility in a server-based environment. Specific application examples demonstrate the performance and cost virtues of this approach.

 

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  ATCA for Military, Aerospace and Other High Performance Embedded Computing Users

ATCA for Military, Aerospace and Other High Performance Embedded Computing Users

The compact and power-efficient design with moderate ruggedness of ATCA® technology now makes it the ideal choice for military, aerospace and security equipment makers. This paper addresses the forces driving the requirements of high performance embedded computing (HPEC) for military and aerospace applications, including the modular open system approach (MOSA), commercial-off-the-shelf (COTS), and reduced size, weight, power and cost (SWaP-C) as it applies to ATCA.

 

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High Density Digital Signal Processing with ATCA

High Density Digital Signal Processing with ATCA

Traditional methods of digital signal processing in military and aerospace applications have used specialized FPGAs, multiprocessor VME or OpenVPX solutions. Advances in microprocessor technology and accompanying software could mean that AdvancedTCA® (ATCA®) has the potential to replace some of those elements in complex signal processing applications.

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Deep Packet Inspection (DPI) Use Cases, Requirements and Architectures

Deep Packet Inspection (DPI) Use Cases, Requirements and Architectures

Deep packet inspection (DPI) is a technique with many different use cases, delivering information about packet flows and content as well as allowing network operators and service providers to ensure quality of service at an application level.

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Adding Media Processing to Server-Based Applications

Adding Media Processing to Server-Based Applications

High density voice and video processing is increasingly in demand for applications such as session border controllers, media gateways/servers or media resource functions, video or content optimization, video communications servers, and interactive voice and video response systems.

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Achieving Critical Advantage Through Optimized Media Processing Applications Based on ATCA® Technology

Achieving Critical Advantage Through Optimized Media Processing Applications Based on ATCA® Technology

Our thirst for rich multimedia experiences without boundaries on an endless variety of devices continues to grow unquenched. Therefore, the ability to manipulate media streams in carrier networks has become a source of critical advantage to network operators and service providers.

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