Welcome!

News Feed Item

Engineering Plastics Market by Type (Acrylonitrile butadiene styrene, Fluor polymer, Polyamide, Polycarbonate, Polyoxymethylene, Thermoplastic Polyesters, and Others), Applications and Geography - Trends & Forecasts (2013- 2018)

NEW YORK, Aug. 25, 2014 /PRNewswire/ -- Reportlinker.com announces that a new market research report is available in its catalogue:

Engineering Plastics Market by Type (Acrylonitrile butadiene styrene, Fluor polymer, Polyamide, Polycarbonate, Polyoxymethylene, Thermoplastic Polyesters, and Others), Applications and Geography - Trends & Forecasts (2013- 2018)

http://www.reportlinker.com/p02314499/Engineering-Plastics-Market-by-Type-Acrylonitrile-butadiene-styrene-Fluor-polymer-Polyamide-Polycarbonate-Polyoxymethylene-Thermoplastic-Polyesters-and-Others-Applications-and-Geography---Trends--Forecasts-2013--2018.html

Engineering plastics are the new choice of materials in various end-user industries. Engineering plastics are preferred mainly due to their properties such as high dimensional stability, good strength, high heat and chemical resistance. The engineering plastics market is growing at a robust rate and this growth is expected to continue in the foreseeable future. This growth is due to its excellent physical properties and its ability to be used as a replacement for traditional materials, such as metal and wood, used in various end-user industries.

Engineering plastics market is experiencing rapid growth, which is expected to continue in the near future, mainly driven by the highly growing Asia-Pacific region and ability of engineering plastics to replace metals in various end user industries. Presently, Asia-Pacific and Western Europe are the largest consumers of engineering plastics.

Demand for engineering plastics is estimated to be highest in automotive & transportation industry and consumer & appliances industry. Automotive & transportation industry is projected to increase at the highest rate. The key drivers of the industry are the increased applications, specifically under-the-hood applications and the strict regulations regarding fuel economy. High volatility in the prices of raw-materials for engineering plastics is one of the major restraining factors that prevails in the market. Increased applications in building & construction industry and growing interior, exterior and under the hood applications in automobile industry, supplement its consumption in developing countries. These countries would serve as the upcoming opportunities in the market.

Asia-Pacific is the largest market for the consumption of engineering plastics owing to the several developing economies in the region. This report estimates the market size of the engineering plastics market, both in terms of volume and value. The report provides a comprehensive review of important market drivers, challenges, and key issues. The market is further segmented and forecasted for regions such as North America, Europe, Asia-Pacific, and Rest of the World (RoW), which includes key growth countries, namely the U.S., Germany, China, Japan, and Russia. Key participants and their strategic initiatives for the overall market are discussed in detail in the report. Top players of the industry are profiled in detail with their recent developments and other strategic industry activities.

Further, as a part of qualitative analysis, the research provides a report with a comprehensive review of major market drivers, restraints, winning imperatives, and key issues in the market. We have also profiled leading players of this industry with their recent developments and other strategic initiatives in the industry. These include: BASF SE (Germany), Bayer MaterialScience (Germany), E. I. du Pont de Nemours and Company (U.S.), LG Chem. (South Korea), SABIC Innovative Plastics (Saudi Arabia), and Solvay Plastics (Belgium) and other market players.
Table of Contents

1 Introduction (Slide No. - 26)
1.1 Objectives of the Study
1.2 Report Description
1.2.1 Report Catalyst
1.3 Market At A Glance
1.3.1 Engineering Plastics Market
1.3.1.1 By Type
1.3.1.2 By Application
1.3.1.3 By Region
1.4 Stakeholders
1.5 Research Methodology & Assumption
1.5.1 Key Data Taken From Secondary Sources
1.5.2 Key Data Taken From Primary Sources

2 Executive Summary (Slide No. - 41)

3 Premium Insights (Slide No. - 44)
3.1 Engineering Plasics Market Segmentation
3.2 Engineering Plastics Market Share (Value), By Type & Region, 2013
3.3 Market Share (Volume), By Region, 2013
3.4 High Growth Potential Applications
3.5 Growth Factors, By Region
3.6 Drivers and Restraints, By Region
3.7 Favorable Factors for the Manufacturers in the Asia-Pacific Region
3.8 Trend Towards Sub-Regions, 2013 ($Million)
3.9 Market Outlook, By Type and Application Segment, 2012-2018
3.10 End-User Trend
3.11 Market Attractiveness, By Region

4 Market Overview (Slide No. - 62)
4.1 Introduction
4.2 Engineering Plastics Market, Value Chain Analysis
4.3 Drivers & Restraints
4.4 Porter's Five Forces Analysis

5 Market Analysis, By Type (Slide No. - 69)
5.1 Polycarbonate Overview
5.2 Acrylonitrile Butadiene Styrene Overview
5.3 Polyamides Overview
5.4 thermoplastic Polyesters (PET & PBT) Overview
5.5 Polyacetal (POM) Overview
5.6 Fluoropolyers Overview
5.7 Others Overview

6 Engineering Plastics Market Analysis, By Application (Slide No. - 89)
6.1 Automotive & Transportation Application Overview
6.2 Electrical & Electronics Application Overview
6.3 Industrial & Machinery Application Overview
6.4 Packaging Industry Application Overview
6.5 Consumer & Appliances Application Overview
6.6 Others Application Overview

7 Market Analysis, By Region (Slide No. - 107)
7.1 North America Overview
7.1.1 North America: Engineering Plastics Market Analysis
7.1.1.1 North America: Market Size, By Type
7.1.1.2 North America: Market Size, By Application
7.1.1.3 North America: Market Analysis, By Country
7.1.1.3.1 the U.S.: Market Trend
7.1.1.3.2 The U.S.: Market Trend, By Type
7.1.1.3.3 The U.S.: Market Trend, By Application
7.1.1.3.4 Others: Market Trend
7.1.1.3.5 Others: Market Trend, By Type
7.1.1.3.6 Others: Market Trend, By Application
7.2 Europe Overview
7.2.1 Europe: Engineering Plastics Market Analysis
7.2.1.1 Europe: Market Size, By Type
7.2.1.2 Europe: Market Size, By Application
7.2.1.3 Europe: Market Analysis, By Country
7.2.1.3.1 Germany: Market Trend
7.2.1.3.2 Germany: Market Trend, By Type
7.2.1.3.3 Germany: Market Trend, By Application
7.2.1.3.4 The U.K.: Market Trend
7.2.1.3.5 The U.K.: Market Trend, By Type
7.2.1.3.6 The U.K.: Market Trend, By Application
7.2.1.3.7 France: Market Trend
7.2.1.3.8 France: Market Trend, By Type
7.2.1.3.9 France: Market Trend, By Application
7.2.1.3.10 Others: Market Trend
7.2.1.3.11 Others: Market Trend, By Type
7.2.1.3.12 Others: Market Trend, By Application
7.3 Asia-Pacific Overview
7.3.1 Asia-Pacific: Engineering Plastics Market Analysis
7.3.1.1 Asia-Pacific: Market Size, By Type
7.3.1.2 Asia-Pacific: Market Size, By Application
7.3.1.3 Asia-Pacific: Market Analysis, By Country
7.3.1.3.1 China: Market Trend
7.3.1.3.2 China: Market Trend, By Type
7.3.1.3.3 China: Market Trend, By Application
7.3.1.3.4 Japan: Market Trend
7.3.1.3.5 Japan: Market Trend, By Type
7.3.1.3.6 Japan: Market Trend, By Application
7.3.1.3.7 India: Market Trend
7.3.1.3.8 India: Market Trend, By Type
7.3.1.3.9 India: Market Trend, By Application
7.3.1.3.10 Others: Market Trend
7.3.1.3.11 Others: Market Trend, By Type
7.3.1.3.12 Others: Market Trend, By Application
7.4 ROW Overview
7.4.1 ROW: Engineering Plastics Market Analysis
7.4.1.1 ROW: Market Size, By Type
7.4.1.2 ROW: Market Size, By Application
7.4.1.3 ROW: Market Analysis, By Country
7.4.1.3.1 Brazil: Market Trend
7.4.1.3.2 Brazil: Market Trend, By Type
7.4.1.3.3 Brazil: Market Trend, By Application
7.4.1.3.4 Russia: Market Trend
7.4.1.3.5 Russia: Market Trend, By Type
7.4.1.3.6 Russia: Market Trend, By Application

8 Burning Issues & Winning Imperatives (Slide No. - 195)
8.1 Burning Issues
8.2 Winning Imperatives

9 Competitive Landscape197-205 (Slide No. - 197)
9.1 Introduction
9.2 Engineering Plastics, Key Manufacturers, By Region
9.3 New Product Launch
9.4 Key Growth Strategy
9.5 Market, Major Developments
9.6 Market, Major Developments, By Company
9.7 Market, Major Developments, By Region

10 Company Profiles (Slide No. - 206)
10.1 BASF SE
10.2 Bayer Materialscience
10.3 Celanese Corporation
10.4 E. I. Du Pont De Nemours & Company
10.5 Evonik Industries AG
10.6 Lanxess AG
10.7 LG Chem Ltd.
10.8 Mitsubishi Engineering-Plastic Corporation
10.9 Polyplastic Co. Ltd.
10.1 Sabic Innovative Plastics
10.11 Solvay Plastics
10.12 Teijin Limited

List of Tables

Table 1 Research Methodology: Assumptions
Table 2 Data From Secondary Sources
Table 3 Data From Primary Sources
Table 4 Engineering Plastics: Industry Snapshot
Table 5 Polycarbonate Market Size, By Region, 2011-2018 ($Million)
Table 6 Polycarbonate Market Size, By Region, 2011-2018 (Kilotons)
Table 7 Acrylonitrile Butadiene Styrene Market Size, By Region, 2011-2018 ($Million)
Table 8 Acrylonitrile Butadiene Styrene Market Size, By Region, 2011-2018 (Kilotons)
Table 9 Polyamides Market Size, By Region, 2011-2018 ($Million)
Table 10 Polyamides Market Size, By Region, 2011-2018 (Kilotons)
Table 11 Thermoplastic Polyesters Market Size, By Region, 2011-2018 ($Million)
Table 12 Thermoplastic Polyesters Market Size, By Region, 2011-2018 (Kilotons)
Table 13 Polyacetal Market Size, By Region, 2011-2018 ($Million)
Table 14 Polyacetal Market Size, By Region, 2011-2018 (Kilotons)
Table 15 Fluoropolymers Market Size, By Region, 2011-2018 ($Million)
Table 16 Fluoropolymers Market Size, By Region, 2011-2018 (Kilotons)
Table 17 Others Market Size, By Region, 2011-2018 ($Million)
Table 18 Others Market Size, By Region, 2011-2018 (Kilotons)
Table 19 Automotive & Transportation Market Size, By Region, 2011-2018 ($Million)
Table 20 Automotive & Transportation Market Size, By Region, 2011-2018 (Kilotons)
Table 21 Electrical & Electronics Market Size, By Region, 2011-2018 ($Million)
Table 22 Electrical & Electronics Market Size, By Region, 2011-2018 (Kilotons)
Table 23 Industrial & Machinery Applications Market Size, By Region, 2011-2018 ($Million)
Table 24 Industrial & Machinery Applications Market Size, By Region, 2011-2018 (Kilotons)
Table 25 Packaging Industry Market Size, By Region, 2011-2018 ($Million)
Table 26 Packaging Industry Market Size, By Region, 2011-2018 (Kilotons)
Table 27 Consumer & Appliances Market Size, By Region, 2011-2018 ($Million)
Table 28 Consumer & Appliances Market Size, By Region, 2011-2018 (Kilotons)
Table 29 Others Market Size, By Region, 2011-2018 ($Million)
Table 30 Others Market Size, By Region, 2011-2018 (Kilotons)
Table 31 North America: Engineering Plastics Market Size, By Type, 2011-2018 ($Million)
Table 32 North America: Engineering Plastics Market Size, By Type, 2011-2018 (Kilotons)
Table 33 North America: Engineering Plastics Market Size, By Application, 2011-2018 ($Million)
Table 34 North America: Engineering Plastics Market Size, By Application, 2011-2018 (Kilotons)
Table 35 North America: Engineering Plastics Market Size, By Country, 2011-2018 ($Million)
Table 36 North America: Engineering Plastics Market Size, By Country, 2011-2018 (Kilotons)
Table 37 The U.S.: Engineering Plastics Market Size, 2011-2018
Table 38 The U.S.: Engineering Plastics Market Size, By Type, 2011-2018 ($Million)
Table 39 The U.S.: Engineering Plastics Market Size, By Type, 2011-2018 (Kilotons)
Table 40 The U.S.: Engineering Plastics Market Size, By Application, 2011-2018 ($Million)
Table 41 The U.S.: Engineering Plastics Market Size, By Application, 2011-2018 (Kilotons)
Table 42 Others Engineering Plastics Market Size, 2011-2018
Table 43 Others Engineering Plastics Market Size, By Type, 2011-2018 ($Million)
Table 44 Others Engineering Plastics Market Size, By Type, 2011-2018 (Kilotons)
Table 45 Others Engineering Plastics Market Size, By Application, 2011-2018 ($Million)
Table 46 Others Engineering Plastics Market Size, By Application, 2011-2018 (Kilotons)
Table 47 Europe: Engineering Plastics Market Size, By Type, 2011-2018 ($Million)
Table 48 Europe: Engineering Plastics Market Size, By Type, 2011-2018 (Kilotons)
Table 49 Europe: Engineering Market Size, By Application, 2011-2018 ($Million)
Table 50 Europe: Engineering Plastics Market Size, By Application, 2011-2018 (Kilotons)
Table 51 Europe: Engineering Plastics Market Size, By Country, 2011-2018 ($Million)
Table 52 Europe: Engineering Plastics Market Analysis, By Country, 2011-2018 (Kilotons)
Table 53 Germany: Engineering Plastics Market Size, By Type, 2011-2018
Table 54 Germany: Engineering Plastics Market Size, By Type, 2011-2018 ($Million)
Table 55 Germany: Engineering Plastics Market Size, By Type, 2011-2018 (Kilotons)
Table 56 Germany: Engineering Plastics Market Size, By Application, 2011-2018 ($Million)
Table 57 Germany: Engineering Plastics Market Size, By Application, 2011-2018 (Kilotons)
Table 58 The U.K.: Engineering Plastics Market Size, By Type, 2011-2018
Table 59 The U.K.: Engineering Plastics Market Size, By Type, 2011-2018 ($Million)
Table 60 The U.K.: Engineering Plastics Market Size, By Type, 2011-2018 (Kilotons)
Table 61 The U.K.: Engineering Plastics Market Size, By Application, 2011-2018 ($Million)
Table 62 The U.K.: Engineering Plastics Market Size, By Application, 2011-2018 (Kilotons)
Table 63 France: Engineering Plastics Market Size, By Type, 2011-2018
Table 64 France: Engineering Plastics Market Size, By Type, 2011-2018 ($Million)
Table 65 France: Engineering Plastics Market Size, By Type, 2011-2018 (Kilotons)
Table 66 France: Engineering Plastics Market Size, By Application, 2011-2018 ($Million)
Table 67 France: Engineering Plastics Market Size, By Application, 2011-2018 (Kilotons)
Table 68 Others Engineering Plastics Market Size, 2011-2018
Table 69 Others Engineering Plastics Market Size, By Type, 2011-2018 ($Million)
Table 70 Others Engineering Plastics Market Size, By Type, 2011-2018 (Kilotons)
Table 71 Others Engineering Plastics Market Size, By Application, 2011-2018 ($Million)
Table 72 Others Engineering Plastics Market Size, By Application, 2011-2018 (Kilotons)
Table 73 Asia-Pacific: Engineering Plastics Market Size, By Type, 2011-2018 ($Million)
Table 74 Asia-Pacific: Engineering Plastics Market Size, By Type, 2011-2018 (Kilotons)
Table 75 Asia-Pacific: Engineering Plastics Market Size, By Application, 2011-2018 ($Million)
Table 76 Asia-Pacific: Engineering Plastics Market Size, By Application, 2011-2018 (Kilotons)
Table 77 Asia-Pacific: Engineering Plastics Market Size, By Country, 2011-2018 ($Million)
Table 78 Asia-Pacific: Engineering Plastics Market Size, By Country, 2011-2018 (Kilotons)
Table 79 China: Engineering Plastics Market Size, 2011-2018
Table 80 China: Engineering Plastics Market Size, By Type, 2011-2018 ($Million)
Table 81 China: Engineering Plastics Market Size, By Type, 2011-2018 (Kilotons)
Table 82 China: Engineering Plastics Market Size, By Application, 2011-2018 ($Million)
Table 83 China: Engineering Plastics Market Size, By Application, 2011-2018 (Kilotons)
Table 84 Japan: Engineering Plastics Market Size, 2011-2018
Table 85 Japan: Engineering Plastics Market Size, By Type, 2011-2018 ($Million)
Table 86 Japan: Engineering Plastics Market Size, By Type, 2011-2018 (Kilotons)
Table 87 Japan: Engineering Plastics Market Size, By Application, 2011-2018 ($Million)
Table 88 Japan: Engineering Plastics Market Size, By Application, 2011-2018 (Kilotons)
Table 89 India: Engineering Plastics Market Size, 2011-2018
Table 90 India: Engineering Plastics Market Size, By Type, 2011-2018 ($Million)
Table 91 India: Engineering Plastics Market Size, By Type, 2011-2018 (Kilotons)
Table 92 India: Engineering Plastics Market Size, By Application, 2011-2018 ($Million)
Table 93 India: Engineering Plastics Market Size, By Application, 2011-2018 (Kilotons)
Table 94 Others Engineering Plastics Market Size, 2011-2018
Table 95 Others Engineering Plastics Market Size, By Type, 2011-2018 ($Million)
Table 96 Others: Engineering Plastics Market Size, By Type, 2011-2018 (Kilotons)
Table 97 Others: Engineering Plastics Market Size, By Application, 2011-2018 ($Million)
Table 98 Others: Engineering Plastics Market Size, By Application, 2011-2018 (Kilotons)
Table 99 RoW: Engineering Plastics Market Size, By Type, 2011-2018 ($Million)
Table 100 RoW: Engineering Plastics Market Size, By Type, 2011-2018 (Kilotons)
Table 101 RoW: Engineering Plastics Market Size, By Application, 2011-2018 ($Million)
Table 102 RoW: Engineering Plastics Market Size, By Application, 2011-2018 (Kilotons)
Table 103 RoW: Engineering Plastics Market Size, By Country, 2011-2018 ($Million)
Table 104 RoW: Engineering Plastics Market Size, By Country, 2011-2018 (Kilotons)
Table 105 Brazil: Engineering Plastics Market Size, 2011-2018
Table 106 Brazil: Engineering Plastics Market Size, By Type, 2011-2018 ($Million)
Table 107 Brazil: Engineering Plastics Market Size, By Type, 2011-2018 (Kilotons)
Table 108 Brazil: Engineering Plastics Market Size, By Application, 2011-2018 ($Million)
Table 109 Brazil: Engineering Plastics Market Size, By Application, 2011-2018 (Kilotons)
Table 110 Russia: Engineering Plastics Market Size, 2011-2018
Table 111 Russia: Engineering Plastics Market Size, By Type, 2011-2018 ($Million)
Table 112 Russia: Engineering Plastics Market Size, By Type, 2011-2018 (Kilotons)
Table 113 Russia: Engineering Plastics Market Size, By Application, 2011-2018 ($Million)
Table 114 Russia: Engineering Plastics Market Size, By Application, 2011-2018 (Kilotons)
Table 115 Engineering Plastics Market, Key Manufacturers, By Region
Table 116 Engineering Plastics Market, Joint Ventures (2010-2014)
Table 117 Engineering Plastics Market, Major Developments, By Company (2010-2014)


To order this report: Engineering Plastics Market by Type (Acrylonitrile butadiene styrene, Fluor polymer, Polyamide, Polycarbonate, Polyoxymethylene, Thermoplastic Polyesters, and Others), Applications and Geography - Trends & Forecasts (2013- 2018)
http://www.reportlinker.com/p02314499/Engineering-Plastics-Market-by-Type-Acrylonitrile-butadiene-styrene-Fluor-polymer-Polyamide-Polycarbonate-Polyoxymethylene-Thermoplastic-Polyesters-and-Others-Applications-and-Geography---Trends--Forecasts-2013--2018.html



__________________________
Contact Clare: [email protected]
US: (339)-368-6001
Intl: +1 339-368-6001

SOURCE Reportlinker

More Stories By PR Newswire

Copyright © 2007 PR Newswire. All rights reserved. Republication or redistribution of PRNewswire content is expressly prohibited without the prior written consent of PRNewswire. PRNewswire shall not be liable for any errors or delays in the content, or for any actions taken in reliance thereon.

Latest Stories
Enterprise IT has been in the era of Hybrid Cloud for some time now. But it seems most conversations about Hybrid are focused on integrating AWS, Microsoft Azure, or Google ECM into existing on-premises systems. Where is all the Private Cloud? What do technology providers need to do to make their offerings more compelling? How should enterprise IT executives and buyers define their focus, needs, and roadmap, and communicate that clearly to the providers?
"We are an all-flash array storage provider but our focus has been on VM-aware storage specifically for virtualized applications," stated Dhiraj Sehgal of Tintri in this SYS-CON.tv interview at 19th Cloud Expo, held November 1-3, 2016, at the Santa Clara Convention Center in Santa Clara, CA.
"We are a leader in the market space called network visibility solutions - it enables monitoring tools and Big Data analysis to access the data and be able to see the performance," explained Shay Morag, VP of Sales and Marketing at Niagara Networks, in this SYS-CON.tv interview at 19th Cloud Expo, held November 1-3, 2016, at the Santa Clara Convention Center in Santa Clara, CA.
According to Forrester Research, every business will become either a digital predator or digital prey by 2020. To avoid demise, organizations must rapidly create new sources of value in their end-to-end customer experiences. True digital predators also must break down information and process silos and extend digital transformation initiatives to empower employees with the digital resources needed to win, serve, and retain customers.
Amazon has gradually rolled out parts of its IoT offerings in the last year, but these are just the tip of the iceberg. In addition to optimizing their back-end AWS offerings, Amazon is laying the ground work to be a major force in IoT – especially in the connected home and office. Amazon is extending its reach by building on its dominant Cloud IoT platform, its Dash Button strategy, recently announced Replenishment Services, the Echo/Alexa voice recognition control platform, the 6-7 strategic...
Organizations planning enterprise data center consolidation and modernization projects are faced with a challenging, costly reality. Requirements to deploy modern, cloud-native applications simultaneously with traditional client/server applications are almost impossible to achieve with hardware-centric enterprise infrastructure. Compute and network infrastructure are fast moving down a software-defined path, but storage has been a laggard. Until now.
We're entering the post-smartphone era, where wearable gadgets from watches and fitness bands to glasses and health aids will power the next technological revolution. With mass adoption of wearable devices comes a new data ecosystem that must be protected. Wearables open new pathways that facilitate the tracking, sharing and storing of consumers’ personal health, location and daily activity data. Consumers have some idea of the data these devices capture, but most don’t realize how revealing and...
IoT solutions exploit operational data generated by Internet-connected smart “things” for the purpose of gaining operational insight and producing “better outcomes” (for example, create new business models, eliminate unscheduled maintenance, etc.). The explosive proliferation of IoT solutions will result in an exponential growth in the volume of IoT data, precipitating significant Information Governance issues: who owns the IoT data, what are the rights/duties of IoT solutions adopters towards t...
Get deep visibility into the performance of your databases and expert advice for performance optimization and tuning. You can't get application performance without database performance. Give everyone on the team a comprehensive view of how every aspect of the system affects performance across SQL database operations, host server and OS, virtualization resources and storage I/O. Quickly find bottlenecks and troubleshoot complex problems.
Whether your IoT service is connecting cars, homes, appliances, wearable, cameras or other devices, one question hangs in the balance – how do you actually make money from this service? The ability to turn your IoT service into profit requires the ability to create a monetization strategy that is flexible, scalable and working for you in real-time. It must be a transparent, smoothly implemented strategy that all stakeholders – from customers to the board – will be able to understand and comprehe...
Complete Internet of Things (IoT) embedded device security is not just about the device but involves the entire product’s identity, data and control integrity, and services traversing the cloud. A device can no longer be looked at as an island; it is a part of a system. In fact, given the cross-domain interactions enabled by IoT it could be a part of many systems. Also, depending on where the device is deployed, for example, in the office building versus a factory floor or oil field, security ha...
Between 2005 and 2020, data volumes will grow by a factor of 300 – enough data to stack CDs from the earth to the moon 162 times. This has come to be known as the ‘big data’ phenomenon. Unfortunately, traditional approaches to handling, storing and analyzing data aren’t adequate at this scale: they’re too costly, slow and physically cumbersome to keep up. Fortunately, in response a new breed of technology has emerged that is cheaper, faster and more scalable. Yet, in meeting these new needs they...
An IoT product’s log files speak volumes about what’s happening with your products in the field, pinpointing current and potential issues, and enabling you to predict failures and save millions of dollars in inventory. But until recently, no one knew how to listen. In his session at @ThingsExpo, Dan Gettens, Chief Research Officer at OnProcess, discussed recent research by Massachusetts Institute of Technology and OnProcess Technology, where MIT created a new, breakthrough analytics model for s...
When it comes to cloud computing, the ability to turn massive amounts of compute cores on and off on demand sounds attractive to IT staff, who need to manage peaks and valleys in user activity. With cloud bursting, the majority of the data can stay on premises while tapping into compute from public cloud providers, reducing risk and minimizing need to move large files. In his session at 18th Cloud Expo, Scott Jeschonek, Director of Product Management at Avere Systems, discussed the IT and busin...
"We are the public cloud providers. We are currently providing 50% of the resources they need for doing e-commerce business in China and we are hosting about 60% of mobile gaming in China," explained Yi Zheng, CPO and VP of Engineering at CDS Global Cloud, in this SYS-CON.tv interview at 19th Cloud Expo, held November 1-3, 2016, at the Santa Clara Convention Center in Santa Clara, CA.