Global Hardware Security Modules Market Outlook 2021-2026 : Utimaco, Gemalto, Thales E-Security, International Business Machines

The latest market research report, titled ‘ Hardware Security Modules Market,’ methodically compiles the principal components of the Hardware Security Modules market research study. The report comprises an in-depth investigation of the market, underlining the latest growth trends and market dynamics. The report is intended to help readers make an accurate assessment of the present and future market scenarios.

The Hardware Security Modules industry is poised to witness substantial growth during the projected timeframe, demonstrating a robust CAGR of xx%. As per the latest report published by Market Expertz, the global market development is majorly supported by a considerable rise in the demand for products and services offered by this industry. A detailed synopsis of the Hardware Security Modules market valuation, revenue estimation, and market statistics is a key component of the report.   Hence, the report aims to help readers gain viable insights into the competitive spectrum of the Hardware Security Modules market. It further draws attention to the vital business expansion strategies adopted by the leading market contenders to reinforce their global market positions.

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Competitive Landscape

The report presents a holistic investigation of the Hardware Security Modules business mechanism and growth-oriented approaches undertaken by the leading companies operating in this market. The report highlights the numerous strategic initiatives, such as new business deals and collaborations, mergers & acquisitions, joint ventures, product launches, and technological up-gradation, implemented by the leading market contenders to set a firm foot in the market. Hence, this section is inclusive of the company profiles of the key players, total revenue accumulation, product sales, profit margins, product pricing, sales & distribution channels, and industry analysis.

Market segments by Top Manufacturers:

Utimaco, Gemalto, Thales E-Security, International Business Machines, Futurex, Hewlett Packard Enterprise, ATOS, Yubico, Ultra Electronics, Swift

COVID-19 Impact Analysis:

The COVID-19 impact assessment included in this report makes it highly distinctive from other market reports of the same category. Researchers have drawn a major focus on the significant impact of the COVID-19 pandemic on the Hardware Security Modules market. This section depicts the pandemic’s effects on the global economic scenario, which have further impacted the Hardware Security Modules business sphere. The report evaluates the key market influencing factors and considers the COVID-19 pandemic as one of the contributing elements for the market’s potential downturn. The market has been substantially affected by the pandemic, and changes can be seen in the market dynamics and demand trends. Therefore, the report broadly assesses the comprehensive impact of the pandemic on the overall growth of the Hardware Security Modules market, besides offering a future COVID-19 impact assessment.

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Market split by Type can be divided into:

PCle Based, USB Based, LAN Based

Market split by Application can be divided into:

Industrial, Government, Communication, Energy, Retail, Health Care & Life Science, Other

Geographical Analysis:

The latest business intelligence report analyzes the Hardware Security Modules market in terms of market reach and consumer bases in the market’s key geographical regions. The Hardware Security Modules market can be categorized into North America, Asia Pacific, Europe, Latin America, and the Middle East & Africa based on geography. This section of the report precisely evaluates the presence of the Hardware Security Modules market in the major regions. It determines the market share, market size, revenue contribution, sales network, and distribution channels of each regional segment.

Key Points of the Geographical Analysis:

Data and information related to the consumption rate in each region

The estimated increase in the consumption rate

The expected growth rate of the regional markets

Proposed growth of the market share of each region

Geographical contribution to market revenue

Key Highlights of the Hardware Security Modules Market Report:

R&D Analysis

Raw Material Sourcing Strategy

Product Mix Matrix

Supply chain optimization analysis

Vendor Management

Location Quotients Analysis

Regional demand estimation and forecast

Pre-commodity pricing volatility

Technological advancements

Carbon Footprint Analysis

Competitive Analysis

Patent Analysis

Mergers & Acquisitions

Cost-Benefit Analysis

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Hardware Security Modules (Hsm) Market Size And Scope, Product Estimate And Strategy Framework By Forecast 2027

Summary:

 A new study title “Hardware Security Modules (HSM) market size, status and forecast 2027” has been featured on market research future.

 Market Overview:

A Hardware Security Module (HSM) is a physical device that provides a secure environment for the storage of cryptographic keys and for performing operations. The HSM is associated with software solution that is attached with inside a PC or servers and offers a tamper protection mechanism that provides a secure out-of-band management interface for key materials. HSM offers numerous attributes for the business to focussed to make quality products and services. The attributes include widely accepted and open secure cryptographic algorithms, strong random number generation for cryptographic functions, a standardized interface for developers, and others. However, high deployment cost of HSM is likely to hinder the growth of the HSM market during the forecast period.

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 Key Players:

The prominent key players in the manufacturing Hardware Security Modules Market research report are as follows:

Gemalto NV (Amsterdam)

Thales e-Security, Inc. (U.S.)

Utimaco GmbH (Germany)

International Business Machines     Corporation (U.S.)

FutureX (U.S.)

Hewlett-Packard Enterprise Development LP     (U.S.) SWIFT (Belgium)

Atos SE (France)

Ultra-Electronics (U.K.)

Yubico     (U.S.) and others

  Segments:

Segmentation by Type : LAN-based HSM/network-attached HSM, PCIE-based/embedded plugins HSM and USB-based/portable HSM.

Segmentation by Application: Payment Processing, Code and Document Signing, Secure Sockets Layer (SSL) and Transport Layer Security (TLS), authentication, database encryption, PKI or credential management, Application-Level Encryption.

Segmentation by End user: Banking and Financial Services, Government, Technology and Communications, Industrial and Manufacturing Industry, Energy and Utilities, Retail and Consumer Products, Healthcare and Life Science, Entertainment & Media, Education and Transportation.

Segmentation by Region: North America, Europe, Asia Pacific and Rest of the world.

 Regional Analysis:

Geographically, the hardware security module market is categorized as North America, Europe, Asia-Pacific and Rest of the World. Asia-Pacific is likely to be the fastest growing region in the hardware security module market. Japan, China, and South Korea to witness to be major contributing region owing to increased inclination to strengthen cloud infrastructure. North America, the market for hardware security module is witnessing a mature market growth over the forecast period owing to early adoption of security modules in BFSI sector. Furthermore,  Europe is likely to gain to have a significant growth rate in the market. The growth rate is attributed to increase in need to safeguard the databases in BFSI and retail sector.

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Hardware Security Modules (HSM) Market Analysis Industry Size, Share, Growth, Demand and Forecast to 2027

Hardware Security Modules (HSM) Market Analysis Industry Size, Share, Growth, Demand and Forecast to 2027

Overview:The report goes through all the elements that can be influential from the market analysis perspectives. One can have a complete overview of the Hardware Security Modules (HSM) Market at the global level upon going through the report. Great dig into the report can be helpful in terms of decision making. Exploring the report in a particular way, one can figure out the critical challenges…

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The global hardware security module market is projected to grow at a CAGR of 12.51% to reach a value of US$2.234 billion by 2025, from US$1.101 billion in 2019. This is the same function as the hardware security module performs thus, acting as a restraining factor in the hardware security module market growth.

Raytheon receives $4.4 billion contract to modernize F-135 propulsion systems

Diego Alves By Diego Alves 06/15/2022 - 3:00 PM in Military

Raytheon Technologies Corp.'s RTX business unit, Pratt and Whitney, recently secured a contract for modification and supply of engines involving F135 propulsion systems.

Valued at $4.39 billion, the contract is scheduled to be completed in September 2024. This latest modification adds scope for the production and delivery of propulsion systems for the F-35 Lighting II Joint Strike Fighter, including 152 F135-PW-100 engines and 26 F135-PW -600 engines.

In accordance with the terms of the contract, Raytheon is obliged to supply long-term components, parts and materials associated with the F135-PW-100 and F135-PW-600 propulsion systems, along with spare engine power modules and other hardware.

In 2019, Pratt & Whitney "won" a contract for the supply of 300 F135 engines for US$ 5.7 billion.

Most of the work related to this business will be carried out in different locations scattered in the continental territory of the United States.

Over the last decade, a rapid increase in global terrorism and adverse geopolitical situations across borders have increased the demand for defense products, with combat aircraft constituting the majority of this portfolio.

It is imperative to mention that the F-35 jets built by America's largest defense contractor, Lockheed Martin, enjoy a dominant position in the combat jet market. With the F-35 being one of the highest-level stealth aircraft, Lockheed enjoys a consistent flow of contracts for the production, delivery of associated spare parts and other businesses related to the F-35 jet program.

For example, in May 2022, the company won two significant contracts, worth US$ 632 million and another amounting to US$ 398 million to support the F-35 program. These contracts won by Lockheed also benefit Pratt and Whitney, which supplies the F135 engine that equips all three variants of the F-35 fighters.

Therefore, as the F-35 jet continues to dominate the combat aircraft market, Pratt & Whitney should benefit from the order flow. The last "conquest" of contract is an example of this.

The production of F-35 jets is expected to continue for many years, given the current U.S. government stock target of 2,456 aircraft for the Air Force, Marine Corps and Navy. Consequently, Pratt and Whitney is expected to receive more order entries involving the F-35 program, such as the latest, which should increase Raytheon Technologies' revenue.

In addition to Lockheed and Raytheon, which benefit from the solid production goal of the F-35, Northrop Grumman and BAE Systems are also ready to "receive" more contracts, as both are important partners in the F-35 program.

Installation of the F135 engine on a Dutch F-35. Photo of Sydney Carroll.

Northrop provides its experience and low observation stealth technology for the F-35 program. As a pioneer in the development of manned combat aircraft, Northrop has a tradition of providing technological leadership in all aspects of military aviation and aircraft.

Currently, Northrop has a long-term profit growth rate of 6.1%. The estimate for the company's sales in 2022 indicates a growth of 2.6% compared to the reported value of 2021.

BAE Systems' short takeoff and vertical landing experience and aerial system support the combat capabilities of the F-35. The company provides an electronic warfare set for the F-35, including a fully integrated radar, aiming support and self-protection to detect and destroy aerial and surface threats.

BAE Systems has a solid long-term profit growth rate of 7.2%. The estimate for BAESY's sales in 2022 indicates a growth of 25.5% over the value reported in 2021.

Raytheon's shares gained 2.2% last year against the industry decline of 8.1%.

Tags: BAE SystemsF-35 Lightning IIF135Pratt & Whitney F135Raytheon

Diego Alves

Diego Alves

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Hyper-Convergence Delivers the Best of Cloud and On-Premises Infrastructure | Rahi

Although organizations are moving more applications and services into the cloud, certain workloads still require the control, reliability and security of on-premises infrastructure. Hyper-convergence has emerged as a key technology for effectively balancing cloud and on-premises resources.

Hyper-converged systems reduce the cost and complexity of on-premises infrastructure by tightly integrating core infrastructure resources into a single platform running on industry-standard hardware. They also provide the foundation for private cloud platforms that deliver some of the speed and scalability of the public cloud, but with greater security and control.

Private clouds offer a compelling mix of scalability and security, but they are notoriously difficult and expensive to implement correctly. It involves properly integrating virtualization, compute, storage and networking components, along with security, management and orchestration functionality. In 2015, a Gartner survey found that roughly 95 percent of private cloud initiatives failed.

Hyper-converged platforms remove many of those challenges through the pre-integration of compute, storage and networking. Combined with a native hypervisor, these resources enable cloud-like levels of automation, scalability, agility and flexibility — but with lower costs, better application performance and better security.

IDC analysts say that IT departments are increasingly adopting hyper-converged systems for the express purpose of building private clouds. The research firm says that the hyper-converged infrastructure market is growing faster than 150 percent a year, and could be worth $6.4 billion by 2020.

Hyper-convergence has evolved from the converged infrastructures developed in recent years to remedy data center bloat. Converged infrastructures consist of pre-racked and cabled compute, storage and networking components integrated into a unified system based upon a validated reference architecture. This approach shortens deployment time, improves management and delivers one-throat-to-choke support.

There are drawbacks, however. Converged infrastructure solutions are made up of distinct hardware components that have been engineered to work together, which can lead to issues with vendor lock-in. In addition, most converged infrastructure products come in standard form factors with rigid configuration rules, severely limiting provisioning and expansion options.

Hyper-converged systems, in contrast, cannot be separated into their component parts. Software-defined technology delivers both compute and storage functions using the same x86 server resources. There’s just one, highly automated platform to manage. However, a key feature of hyper-convergence is its scale-out architecture, which makes it possible to increase capacity by adding modules. This design approach creates a more agile and efficient IT infrastructure for organizations seeking to implement a private cloud.

In fact, hyper-converged systems share several of the characteristics of the cloud, including:

Elasticity.     Hyper-converged systems can be scaled up or down as needed without complex configuration and integration and at low incremental cost.

On-Demand Services. The software-defined approach abstracts compute and storage resources, making it possible automate provisioning.

Resource Pooling. The scale-out architecture of hyper-converged systems creates one logical pool of resources using software that automatically discovers nodes.

Traditionally, IT infrastructure has been designed, configured and implemented on a box-by-box basis, creating a complex, siloed environment that is inflexible and difficult to scale. The cloud provides greater agility but is not suitable for all workloads. Hyper-convergence enables organizations to gain cloud-like simplicity without sacrificing the security and reliability of on-premises infrastructure.

Author – Rahi

Rahi is a Global IT Solutions Provider and Systems Integrator Company. We are uniquely capable of combining data center, IT, and audio/video solutions to create an integrated environment that drives efficiencies, enhances customer service, and creates competitive advantages. We offer a full suite of products in physical infrastructure, storage, compute, networking, power and cooling, and audio/video. Also, Rahi offers professional and managed services to aid customers in logistics, delivery, set-up, and ongoing support of their technology solutions.

Global Hardware Security Module Market 2019 – Analysis, Regional Outlook, Segments and Forecast To 2024

Acquire Market Research has announced a new report titled “Global Hardware Security Module Market 2019 by Manufacturers, Regions, Type and Application, Forecast to 2024” to their offerings.

A hardware security module (HSM) is a physical computing device that safeguards and manages digital keys for strong authentication and provides crypto processing. These modules traditionally come in the form of a plug-in card or an external device that attaches directly to a computer or network server.

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Scope of the Report: With the development of Hardware Security Modules, we tend to believe this industry is an emerging industry, and the consumption increasing degree will show a smooth growth curve. For product prices, the slow downward trend in recent years will maintain in the future as competition intensifies. Besides, prices gap between different brands will go narrowing gradually. Also, there will be fluctuation in gross margin. The worldwide market for Hardware Security Module is expected to grow at a CAGR of roughly xx% over the next five years, will reach xx million US$ in 2024, from xx million US$ in 2019, according to a new study. This report focuses on the Hardware Security Module in global market, especially in North America, Europe and Asia-Pacific, South America, Middle East and Africa. This report categorizes the market based on manufacturers, regions, type and application.

Market Segment by Manufacturers, this report covers Thales E-Security, Inc. Gemalto NV Hewlett-Packard Enterprise Development LP Utimaco Gmbh IBM SWIFT Futurex Atos SE Ultra-Electronics Yubico

Market Segment by Regions, regional analysis covers North America (United States, Canada and Mexico) Europe (Germany, France, UK, Russia and Italy) Asia-Pacific (China, Japan, Korea, India and Southeast Asia) South America (Brazil, Argentina, Colombia etc.) Middle East and Africa (Saudi Arabia, UAE, Egypt, Nigeria and South Africa)

Market Segment by Type, covers LAN Based PCle Based USB Based

Market Segment by Applications, can be divided into Industrial and Manufacturing Industry Banking and Financial Services Government Others

More Info and TOC @https://www.acquiremarketresearch.com/industry-reports/global-hardware-security-module-market-2019-by-manufacturers/1257/

Table of Contents 1 Market Overview 1.1 Hardware Security Module Introduction 1.2 Market Analysis by Type 1.2.1 LAN Based 1.2.2 PCle Based 1.2.3 USB Based 1.3 Market Analysis by Applications 1.3.1 Industrial and Manufacturing Industry 1.3.2 Banking and Financial Services 1.3.3 Government 1.3.4 Others 1.4 Market Analysis by Regions 1.4.1 North America (United States, Canada and Mexico) 1.4.1.1 United States Market States and Outlook (2014-2024) 1.4.1.2 Canada Market States and Outlook (2014-2024) 1.4.1.3 Mexico Market States and Outlook (2014-2024) 1.4.2 Europe (Germany, France, UK, Russia and Italy) 1.4.2.1 Germany Market States and Outlook (2014-2024) 1.4.2.2 France Market States and Outlook (2014-2024) 1.4.2.3 UK Market States and Outlook (2014-2024) 1.4.2.4 Russia Market States and Outlook (2014-2024) 1.4.2.5 Italy Market States and Outlook (2014-2024) 1.4.3 Asia-Pacific (China, Japan, Korea, India and Southeast Asia) 1.4.3.1 China Market States and Outlook (2014-2024) 1.4.3.2 Japan Market States and Outlook (2014-2024) 1.4.3.3 Korea Market States and Outlook (2014-2024) 1.4.3.4 India Market States and Outlook (2014-2024) 1.4.3.5 Southeast Asia Market States and Outlook (2014-2024) 1.4.4 South America, Middle East and Africa 1.4.4.1 Brazil Market States and Outlook (2014-2024) 1.4.4.2 Egypt Market States and Outlook (2014-2024) 1.4.4.3 Saudi Arabia Market States and Outlook (2014-2024) 1.4.4.4 South Africa Market States and Outlook (2014-2024) 1.4.4.5 Turkey Market States and Outlook (2014-2024) 1.5 Market Dynamics 1.5.1 Market Opportunities 1.5.2 Market Risk 1.5.3 Market Driving Force

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Database Management System (DBMS) Market Size, Share, Price Analysis, Growth Report and Industry Forecast to 2027

Market Overview

Market Research Future (MRFR) emphasizes in its research report that the global Database Management System market 2020 is projected to rise exponentially over the review period, ensuring a significant market valuation of USD 63 Billion and a healthy CAGR of 8 per cent over the review period.

Drivers and Restrictions

Information Management System is a technology that collects, stores, modifies, and removes data from databases. Growing application areas and high cloud computing adoption among small-scale businesses play a vital role in the growth of the DBMS Market As the amount of digital content is growing across the world, the need for database centers and consequently cloud storage is expected to increase. The Database Management System plays a critical role in the IT and Communication industry, while the advent of cloud computing to handle huge data also leads to high DBMS adoption in other industries. One of the increasing DBMS application area is in the BFSI and Healthcare industry. Recent studies indicate that BFIS and healthcare sectors are hackers’ primary targets these days, and cloud computing allows these industries to protect and handle their sensitive data on a broader scale.

The demand for Database Management System is guided primarily by factors such as enhanced data sharing, data security, reduced data integration, while high hardware and software costs, high staff training costs, and technical personnel are some of the market’s constraints.

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Segmental Analysis

The program for database management was segmented based on modules, forms, implementation, and industry. Includes parts- hardware and software. The market was segmented by category as relational, non-relational, while the industry includes-BFSI, IT & Telecommunication, Aerospace & Security, Media & Entertainment and Healthcare among others-on the basis of delivery (cloud, on-premises) and on the basis of industries. DBMS plays a key role in the IT and telecommunications industry, while the advent of cloud computing also boosts high DBMS adoption in other sectors. The study shows that BFSI and healthcare are more vulnerable to cyber-attacks, and cloud computing allows these sectors to protect and handle their sensitive data on a broader scale.

Regional Analysis

The geographical overview of the global market has been conducted in four major regions, including the Asia Pacific, North America, Europe, and the rest of the world.

Due to the involvement of multinational players that provide US and Canada with a competitive edge, North America dominates the Database management system market. Growing IT industry and high deployment by mid- and large-scale enterprises of cloud computing are some of the major factor driving the North American database management system market. DBMS software’s popularity across North America and Europe is rising largely due to increased digitalization in nearly every sector and high preference for optimum data management solution in those regions. In the DBMS market Europe is showing steady growth. Fast growth in financial sector and healthcare contributes to strong adoption of technology on premises and cloud storage. Asia-Pacific is expected to expand at a rapid pace due to China and India’s increasing manufacturing and BFSI market. In addition, players based in China and Japan invest heavily in developing powerful DBMS systems. In addition, growing focus on implementing better data management solutions across many Asia Pacific organizations is anticipated to bring prominent growth in the DBMS market.

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Competitive Analysis

The major market players operating in the global market as identified by MRFR are Microsoft Corporation (U.S), Oracle Corporation (U.S), Embarcadero Technologies (U.S), MarkLogic (U.S), IBM Corporation (U.S), SAP AG (Germany), Hewlett-Packard (U.S), Amazon WebServices (Washington), EnterpriseDB (U.S), InterSystems (U.S), Cloudera (U.S), among others.

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MRFR team have supreme objective to provide the optimum quality market research and intelligence services to our clients. Our market research studies by Solutions, Application, Logistics and market players for global, regional, and country level market segments, enable our clients to see more, know more, and do more, which help to answer all their most important questions.

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Mainframe Community / Mattermost

So, last night I ‘launched’ a MatterMost instance on https://mainframe.community. To summarize MatterMost (via wikipedia) it is: an open-source, self-hostable online chat service with file sharing, search, and integrations. It is designed as an internal chat for organisations and companies, and mostly markets itself as an open-source alternative to Slack[7][8] and Microsoft Teams. In this post I wanted to quickly explain how and why I did this. Let’s start with the why first. But Why? Last week, while working for one of my clients, I discovered they are starting to implemen MatterMost as a cross-team collaboration tool. And I discovered it has integrations, webhooks and bots. Being the Mainframe nerd I am, I quickly whipped up some lines of REXX to call CURL so I could ‘post’ to a MatterMost channel straight from The Mainframe. It was also quite easy in the wsadmin scripts to have jython execute an os.system to call curl and do the post... Now I wanted to take it a step further and create a “load module” that did the same, but could be called from a regular batch-job to, I donno, post messages when jobs failed, or required other forms of attention. Seeing as I was going to develop that on my own ZPDT/ZD&T I needed a sandbox environment. Running MatterMost locally from docker was a breeze, yet not running as “https” (something I wanted to test to work from the still to be made load-module. So, seeing as I already had the “mainframe.community”-domain, I thought, why not host it there, and use that as a sandbox....turned out that was easier done than imagined. But How? The instructions provided at https://docs.mattermost.com/install/install-ubuntu-1804.html were easy enough to follow and should get you up and running yourself in under an hour.

Seeing as there already ‘some stuff’ running at the local datacenter here I already had an nginx-environment up and running. I started with creating a new VM in my ProxMox environment (running Ubuntu 18.04) and made sure this machine got a static IP. From there on I did the following:

sudo apt update sudo apt upgrade sudo apt install postgresql postgresql-contrib

That then made sure the VM had a local database for all the MatterMost things. Initializing the DB environment was as easy as;

sudo --login --user postgres psql postgres=# CREATE DATABASE mattermost; postgres=# CREATE USER mmuser WITH PASSWORD 'x'; postgres=# GRANT ALL PRIVILEGES ON DATABASE mattermost to mmuser; postgres=# \q exit

Of course the password is not ‘x’ but something a bit more secure...

Then, make a change to the postgres config (vi /etc/postgresql/10/main/pg_hba.conf) changing the line

local   all             all                        peer

to

local   all             all                        trust

Then installing mattermost was basically these next commands:

  systemctl reload postgresql   wget https://releases.mattermost.com/5.23.1/mattermost-5.23.1-linux-amd64.tar.gz   mv mattermost /opt   mkdir /opt/mattermost/data   useradd --system --user-group mattermost   chown -R mattermost:mattermost /opt/mattermost   chmod -R g+w /opt/mattermost   vi /opt/mattermost/config/config.json   cd /opt/mattermost/   sudo -u mattermost ./bin/mattermost   vi /opt/mattermost/config/config.json   sudo -u mattermost ./bin/mattermost   vi /lib/systemd/system/mattermost.service   systemctl daemon-reload   systemctl status mattermost.service   systemctl start mattermost.service   curl http://localhost:8065   systemctl enable mattermost.service   restart mattermost   systemctl restart mattermost

Some post configuration needed to be done via the MatterMost webinterface (that was running like a charm) and then just a little nginx-config like specified at the MatterMost docs webpages and it was all up and running. Thanks to the peeps at LetsEncrypt it’s running TLS too :) Curious to see how ‘busy’ it will get on the mainframe.community. I’ve setup the VM with enough hardware resource to at least host 2000 users. So head on over to https://mainframe.community and make me ‘upgrade’  the VM due to the user growth :)

Worldwide Hardware Security Modules Market Outlook 2022: Trends, Top Manufacturers, Market Demands, Industry Growth Analysis & Forecasts

Worldwide Hardware Security Modules Market Outlook 2022: Trends, Top Manufacturers, Market Demands, Industry Growth Analysis & Forecasts

Hardware Security Modules Market Research Report covers the present scenario and the growth prospects of the Hardware Security Modules Market for 2017-2022. To calculate the market size, the report considers the revenue generated from the sales of Hardware Security Modules globally. Hardware Security Modules Market, has been prepared based on an in-depth market analysis with inputs from industry…

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Global Fall Protection Systems Market Growing Trends & Scope Overview 2020-2025

The most recent Global Fall Protection Systems Market report published by Market.Biz is that it covers the whole globe as well as regional and local aspects of the market in an understandable way.

Highlights in the Fall Protection Systems research report:

It is a total background assessment of the Fall Protection Systems Market, which incorporates an evaluation of the parent chains, Significant changes in market factors which is one of the crucial parts of this report. Market analysis has a different level of segmentation. the report also merges past and current information and projects the size of the futures market from the viewpoint of value and volume of Market.

Competitive Analysis of Global Fall Protection Systems Market:

In Short, this part of the report i.e. Competitive Analysis is the inclusion of Market Coverage and evaluation of recent trends in the industry's development. Market shares and strategies of key players are the main trajectory of analysis in the Fall Protection Systems report. The Rising niches and regional market segments are also included in the assessment of future forecasts. The objective is the assessment of the past, present and future path of the market. 

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Through theoretical analysis and technology-based vision, this report creates detailed research and comprehensive examination of different market sector development. The reports highlight different Fall Protection Systems market forecast along with threats, Vendor selection criteria, market size, Financial investments promotions, and distributions channel. 

The Key Segmentation Analysed in the Global Fall Protection Systems Market 2020 are as follow:

Manufacturers: Buckingham, Tractel, Yates Gear, Latchways, Honeywell Safety Products, Aspiring Safety Products, UltraSafe, CMC Rescue, JSP, Eurosafe Solutions, Reliance, Guardian Fall Protection, MSA Worldwide, Petzl, FallTech, 3M Fall Protection, P&P Safety, ABS Safety GmbH

Types: Harnesses, Anchors, Connectors, Self-Retracting Devices, Pulleys, Rescue Systems, Helmet, Accessories 

Applications: Individual, Construction, Forestry, Fire Protection 

The investigation includes operators and constraining elements of the Fall Protection Systems market along with the effects of these elements on the Fall Protection Systems business during the forecast period of upcoming years. However, the Fall Protection Systems research also expresses the assessment of potential viability in the global market. The research mainly visualizes the exceptional expected growth over the forecast years. 

The Four Key Target Audience of the Fall Protection Systems in the Global Market:

1. Producers of product or Potential shareholders.

2. Dealers, traders, brokers, Sellers, Retailers, foreign buyers, and shippers.

3. cooperative and governing bodies.

4. Locations, Subculture, Needs, Attitudes & Opinion, Personality.

In the Regional Analysis the following areas are the key geographic producers of Fall Protection Systems:

Europe (Germany, UK, France, Italy, Russia, Spain, and Benelux)

North America (the United States, Canada, and Mexico)

Latin America (Brazil, Argentina, and Colombia)

Asia Pacific (China, Japan, India)

The Middle East and Africa

Here is the Inquiry link of the report: https://market.biz/report/global-fall-protection-systems-market-2017-mr/142428/#inquiry

The Equipment sector is growing rapidly where the Fall Protection Systems is playing a crucial role. The statistical analytics of this report helps in understanding the upcoming trends which help in the growth of the market. the data summarized in this analysis of the market provides proper knowledge of future opportunities and many other forecasts. 

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#Blog Post 6. Inventions That Changed Music

 Music had always been a fundamental aspect of the human way of life before civilization took hold of the human race. Music is rightly said to be one of the greatest and ever-present companions of man. Whether its laughter, pain, sorrow, love, or hate, music has a rare ability to talk to people in a way that resonates with their innermost emotional feelings. Music's massive influence on man definitely stood up to the test of time. Just as man is extremely adaptive and has changed over time, so music has adapted and changed, irrespective of cultural changes. The ingenuity of Man has brought with it a powerful force that has substantially affected the music industry. The past two centuries have encountered technological advances not previously thought of. These have influenced both positive and negative ways of producing, distributing and consuming music. There have been numerous technological advances in music since the 18th century, but music digitization is the most influential technology that has taken the world of music by storm. Since the time when music was readable by computers, the music industry's dynamics and economics have changed. In addition to common and useful instruments such as electric guitar and synthesiser, technology has brought us new production equipment such as high-fidelity microphones, re-mastering equipment and CD-ROMs that bring us a crystal-clear recording sound. Let’s go through some of the greatest invention that lead to the evolution of music industry.

Phonograph

American inventor Thomas Alva Edison was officially credited with inventing the phonograph on 21 November 1877, a revolutionary device capable of recording and playing back sounds. This breakthrough at the time was greeted with hysteria, so the thought that we could retain the spoken word was absolutely extraordinary, and its influence has changed every aspect of our modern world. While working on two other world-changing inventions of the 19th century–the telephone and the telegraph, Edison first thought about the phonograph. He decided that the technology used for the two could also be changed to record sound–something that was never even considered as a possibility until now. In 1877 he started to create a machine with two needles, one for capturing the sound and one for playing it back. The first needle would indent the sound vibrations onto a tin foil-covered tube, while the other would duplicate the same indentations again to create the same sound. When he spoke the oddly chosen words “Mary had a little lamb” into the machine, he was awed and astonished to hear them played back to him. The music technology was revolutionised by the phonograph. Performances are recorded and at their leisure people would listen to them. It also made more public about music and communication. The invention marked the birth of a new form of entertainment and a completely new business area that fuelled the market for the new invention, the music industry.

 Microphone

A microphone is a device that converts mechanical energy waves or sound into electrical energy waves. Speaking into a microphone excites (moves) a diaphragm that is coupled to a device that creates an electrical current proportional to the sound waves produced. Microphones are a part of everyday life. They are used in telephones, transmitters for commercial radio and television broadcast, amateur radio, baby monitors, tape recorders, motion pictures, and public address systems. The first microphone was invented as a telephone transmitter by Alexander Graham Bell in 1876. It was a liquid device that was not very practical. The first microphone was invented by Emile Berliner in 1876. The carbon microphone was used up to the 1970s when it was replaced by piezoelectric ceramic components for radio transmissions and extensively in telephone transmitters. The microphone became widely popular as it recorded sounds louder than the ordinary human voice from speakers at a volume. The Bell Telephone Company was extremely impressed with the invention and later purchased $50,000 for Berliner's microphone. Microphone paved the way towards a new perspective in the music industry.

 Magnetic tape

In 1928, Fritz Pfleumer developed a magnetic tape using oxide bonded to a strip of paper or film and patented it in 1929. Magnetic tape is a magnetic recording medium made of a thin, magnetizable coating on a plastic film long, narrow strip. Building on this, AEG invented the magnetophone and advances in the chemical technology of polymers allowed its partner BASF to ship the first magnetic tape in 1935--a film of cellulose acetate covered with an iron oxide lacquer bound with additional cellulose acetate. Many developed nations continued to work on industrial magnetic tape and military applications with World War II approach. Magnetic tape has become a vital storage medium for the advent of the information age, used for both video and audio, in formats such as cassette and 8-track, for capturing sound in motion pictures (replacing optical sound tracks) and finally for digital recording, including computer memory. Digital recording has been completely replaced by analogue recording over the past few decades. Various new technologies are now more commonly used to capture digital signals, including those that use lasers. While magnetic tape is still used for niche applications, it is no longer as omnipresent as it once was.

 Vocoder

Bell Labs ' Homer Dudley developed the vocoder as a way to reduce the length of a vocal signal by reducing the cost of costly transatlantic copper cables. The vocoder shares its original intention with the.mp3 format, which was once controversial but now widely used. Both are essentially types of compression of data. It proved to be not as cost-effective as anticipated, but the vocoder was repurposed during World War 2 as a way to secure communications between political powers. A vocoder uses a control or modulator signal (such as the human voice sung or spoken on a microphone) to break the signal into various bands. To drive an instrument, also known as a carrier, we then use the amplitude of these signals. Since the signal is split several times, the resulting effect keeps sounds recognisable in human speech in tact and combines these sounds with the instrument used as the carrier (often a synthesiser). The resulting effect is a multitimbral musical instrument that still preserves the characteristics of human speech when using a synthesiser.

 The Walkman

Walkman is a Sony-made brand of portable media players. The first Walkman, released in 1979, was a portable cassette player that changed listening habits by enabling people on the move to listen to music of their choice. It was developed by Masaru Ibuka, co-founder of Sony, who thought that the current portable player of Sony was too unwieldy and costly. A prototype was produced in 1977 from a modified Sony Pressman, a portable tape recorder intended for journalists. Boomboxes and portable radios had been around for a while, but the Walkman made private portable music, bringing people away from home to a whole new era of listening to music. Over the years, the Walkman would see several hardware variations, including "Discman" CD versions and MiniDisk players, as well as more recent portable media player products that Sony is still selling today. It's not quite a brand's powerhouse as it once was, but it's still as important as ever 40 years ago, the changes that Walkman created in our lives and how we respond to both music and technology.

 Pro Tools

Pro Tools is a digital audio workstation developed and released by Avid Technology (formerly Digidesign) for Microsoft Windows and macOS which can be used for a wide range of sound recording and sound production purposes. Pro Tools can run as stand-alone software, or operate using a range of external analogue / digital converters and internal PCI Local Bus (PCI) or on-board digital signal processor (DSP) audio cards to deliver reverb, equalisation, and compression effects. Like all digital audio workstation software, Pro Tools can use the Undo feature to perform multitrack tape recorder and audio mixer functions, along with additional features that can only be performed in the digital domain, such as non-destructive editing. Pro Tools has had a major impact on the music industry and how it has grown. Musicians of the past had to get a record label to sign up and pay thousands of dollars to buy studio time to produce an album. Pro Tools has changed everything. First, the time needed to record and edit music is greatly reduced. With analogue recording, to edit tracks, one has to spend hours cutting and splicing tape recording, Pro Tools can do this in one click. Second, the need to get your band signed into a label to record an album is nearly gone. Nearly anyone can save up to $300 to purchase a basic set of Pro Tools and record whenever they want for years to come.

 The MP3

The journey of the revolutionary audio file began in 1982, when German audio engineer Karlheinz Bradenburg helped a professor find ways to use electronic telephone technology to transmit music. As computers became more sophisticated over the next 13 years, so did Bradenburg's progress in compression (his biggest snag, incredibly, came when trying to capture Suzanne Vega's vocal on "Tom's Diner" without distortion). Standards were developed in conjunction with the Moving Picture Experts Group (MPEG), and a proper host had arisen thanks to the Internet. The. MP3 extension was chosen and cemented in July 1995, and the rest, including its unprecedented snowball effect on the music industry, are still embedded in history.

 Auto-Tune

Most of these inventions came from the scientific minds, and no exception is Auto-Tune. Geophysicist Dr. Andy Hildebrand founded his parent company, Antares Audio Technologies (originally called Jupiter Systems), in 1990. Hildebrand patented the Infinity sample-looping programme and various Pro-Tools plug-ins for the first time using the same Digital Signal Processing (DSP) technology he used to measure seismic data. But that etched his legacy was Auto-Tune − a DSP-powered programme used to run correct vocals and instruments. Auto-Tune changes a singing voice's pitch to make everybody sound perfectly in tune. It is subtle enough when used correctly that it cannot be detected. The first song that was released on vocals using Auto-Tune was Cher's 1998 song "Believe."

 iPod

Walkman and Discmans were instantly forgotten, and when the iPod was commercially available in October 2001, .MP3s gathered on desktops mushroomed. It cost $400 and needed semi-regular charges with 5 GB of collated, alphabetized, prioritized albums, songs and playlists all available and scrollable via a touch-sensitive pinwheel. Eighteen years later, the features of the iPod have fused with telecommunications via the iPhone, inspired hundreds of unsuccessful imitators (hello, Zune) and created iconic campaigns of ads that produced standalone iconography.

 Conclusion

Nearly every advancement of technology has influenced the music industry, from aircraft to ships and chips to the internet. As technology as well as music industry is an endless field with limitless innovations, we expect more and more innovative collaboration of technology and music. The art of combining science and technology to music industry had always resulted in the formation of something brand new to world. Technology now a days had paved a new perspective of our music cultures and influenced our day to day life. I hope there is good days to come and looking forward for revolutionary technologies.

 References

 1.      Alexander, D. (2019). 9 Technologies That Changed the Way Musicians Created Music Forever. [Online] Interestingengineering.com. Available at: https://interestingengineering.com/9-technologies-that-changed-the-way-musicians-created-music-forever [Accessed 16 Nov. 2019].

2.      Alexander, S. (2017). Here are 5 Inventions That Changed Music. [Online] The Geeks and Beats. Available at https://www.geeksandbeats.com/2017/10/5-inventions-changed-music/ [Accessed 16 Nov. 2019].

3.      Auto-Tune. (2019). [image] Available at: https://www.emusician.com/gear/a-look-at-the-hottest-items-from-the-2018-namm-show [Accessed 16 Nov. 2019].

4.      En.wikipedia.org. (2019). Timeline of music technology. [online] Available at: https://en.wikipedia.org/wiki/Timeline_of_music_technology [Accessed 16 Nov. 2019].

5.      Entertainment.ie. (n.d.). The 9 Most Pioneering Advancements in Music History. [Online] Available at: https://entertainment.ie/music/the-9-most-pioneering-advancements-in-music-history-257354/ [Accessed 16 Nov. 2019].

6.      Herzog, K. (2014). 24 Inventions That Changed Music. [Online] Rolling Stone. Available at: https://www.rollingstone.com/music/music-lists/24-inventions-that-changed-music-16471/phonograph-1877-222487/ [Accessed 16 Nov. 2019].

7.      I pod. (2019). [image] Available at: https://sipse.com/tecnologia/ipod-clasico-coleccionistas-precios-dispositivos-apple-204554.html [Accessed 16 Nov. 2019].

8.      Nast, C. (2016). 10 Technologies That Changed Music. [Online] Vogue. Available at: https://www.vogue.com/article/ten-technologies-that-changed-music [Accessed 16 Nov. 2019].

9.      Pro tools. (n.d.). [image] Available at: http://www.kilroy-records.be/public_html/viewtopic.php?t=4022 [Accessed 16 Nov. 2019].

10.  Theo2.co.uk. (2016). 8 Technological Advances That Changed The Music Industry Forever | The O2. [Online] Available at: https://www.theo2.co.uk/news/detail/blog_8_technological_advances_that_changed_the_music_industry_forever [Accessed 16 Nov. 2019].

11.  Thompson, C. (2016). How the Phonograph Changed Music Forever. [online] Smithsonian. Available at: https://www.smithsonianmag.com/arts-culture/phonograph-changed-music-forever-180957677/ [Accessed 16 Nov. 2019].

12.  vocoder. (2019). [image] Available at: https://windowsreport.com/vocoder-software/ [Accessed 16 Nov. 2019].

13.  Walkman Sony. (n.d.). [image] Available at: https://twitter.com/hashtag/walkmansony [Accessed 16 Nov. 2019].

A Blockchain Bank For The New Financial World LCX’s goal is to become one of the world’s first licensed and supervised blockchain banks seamlessly blending traditional and crypto assets.

EMPOWERING CRYPTOASSETS AS A NEW ASSET CLASS

LCX’s goal is to become one of the world’s first licensed and supervised blockchain banks seamlessly blending traditional and crypto assets.

It all started on a napkin

From an idea on a napkin to a global growth company redefining finance as we know it.

Since 2013 the founder of LCX, Monty C. M. Metzger, has been evangelizing global leaders about the disruptive impact of blockchain technology and cryptocurrencies. At the same time, his venture capital fund Digital Leaders Ventures was unable to participate and invest – as the regulatory framework and the institutional grade platforms have been missing.

Disrupt. Innovate. Deliver.

LCX’s Blockchain Ecosystem

LCX is building a financial ecosystem for crypto and fiat alike to become the new category leader in blockchain banking.

LCX will be offering industry-leading crypto asset financial products and services. Becoming a technology-driven bank, LCX is focused on helping both traditional and blockchain market participants make the most out of opportunities arising from the growth of cryptocurrencies and tokenized assets.

LCX Terminal

A sophisticated trading desk for managing the complete crypto asset trading lifecycle across multiple platforms.

LCX Assets

Asset management across fiat and crypto assets alike, issuing a variety of tokenized financial assets and managing security token emissions.

LCX Bank

Aiming to become a blockchain bank with a full bank license focusing on corporate banking while also offering private crypto banking.

LCX Protocol

A decentralized compliance protocol aka. “The Liechtenstein Protocol” to standardize the way security-tokens are issued and traded on blockchains.

LCX Vault

Institutional-grade custodian solution with multi-signature, programmable governance, secured by Hardware Security Modules (HSM).

LCX Exchange

Aiming to launch a regulated exchange and marketplace for security tokens and any other crypto asset.

LCX is one of the most important companies in the space

and in the world.Don Tapscott,

Thought Leaders, Bestselling Author “Blockchain Revolution”

LCX’s Startegic Partnerships

Transform. Collaborate. Share.

World Economic Forum

LCX has become a member at the Centre for the Fourth Industrial Revolution of the World Economic Forum, and joins a select group of global companies.

Ledger

Ledger is a leader in security and infrastructure solutions for cryptocurrencies and blockchain applications.

Global Digital Finance (GDF)

LCX joined Global Digital Finance (GDF) to shape Public Policy for Cryptocurrency & Blockchain Technology Learn more.

Blockchain Research Institute

The Blockchain Research Institute (BRI) is an independent, global think-tank, co-founded by Don and Alex Tapscott.

Global Digital Finance (GDF)

GDF is an industry membership body that promotes the adoption of best practices for cryptoassets and digital finance technologies.

Confidential*

Additional strategic partnerships will be announced in the future.

JavaScript Usage by Industry

We’re continuing our analysis of the results of last winter’s JavaScript Ecosystem Survey, a survey of over 16,000 developers conducted by npm in collaboration with the Node.JS Foundation and the JS Foundation. Our second topic is How JavaScript is used across industries — and, more specifically, how different industries use certain JavaScript tools, frameworks, and practices. To read more about the methodology behind this survey, click here.

We asked about what industry our respondents worked in. 45% of users answered “tech”, revealing an underlying ambiguity in our question. For instance, if you work at Google, do you work at a tech company or an advertising company? What about at Microsoft, which many consider a tech company, but also has advertising and even hardware manufacturing arms? Next time, we’ll ask for more detailed information about industry concentrations.

“We asked about what industry our respondents worked in. The most common answer was “tech” at 45%”

Despite this, we still gathered some good data about how use of JavaScript varies by industry. The top industries were:

finance: 7%

advertising and marketing: 5%

education: 5%

entertainment: 5%

business support and logistics: 4%

healthcare: 4%

retail: 3%

government: 2%

manufacturing: 2%

There were meaningful differences across industries in how and why people use JavaScript. There were also some clear commonalities, not all of which we’re going to mention. But from a statistician’s point of view, the questions where all the industries answered very similarly are useful because it indicates the differences in other questions are “real” and not just random variation.

With 16,000 responses, even the single-digit groups per industry constituted enough data to make meaningful conclusions. We discarded answers from industries with less than 2% responses (i.e. less than 300 individual responses).

JavaScript tools

First, we asked about common tools: bundlers, linters, testing frameworks, transpilers, CSS preprocessors, and more.

Manufacturing across the board uses less of everything — only 51% of manufacturing respondents say they use a testing framework, compared to 75% in finance.

The explanation for this may lie in the answer to another question; “Where does the JavaScript you write run?” 15% of manufacturing developers say their code runs on embedded devices which is twice as much as any other industry. Embedded platforms often have intrinsic transpilers for JS, so you do not need to use your own and have no need for browser-specific optimizations that most of these tools provide.

“Manufacturing across the board uses less of everything — only 51% of manufacturing respondents say they use a testing framework, compared to 75% in finance.”

Put another way: hardware isn’t a browser. This view of manufacturing respondents is backed up by another question, in which 31% of manufacturing respondents say their code is put to use in IoT (Internet of Things). No other industry gets above double digits for that answer. This makes manufacturing an interesting set of answers across the board, as we’ll see.

Finance, on the other hand, uses everything the most. They are the most likely to use a bundler, second-most likely to use a linter (after healthcare), most likely to test, second-most likely to use a web framework (after retail), most likely to use a transpiler, and second-most likely to use a CSS preprocessor (after advertising). Finance just does all the things.

JavaScript frameworks

We’ve examined the popularity of JavaScript frameworks in the past. Our survey data provides another view into these preferences, and the results are enlightening.

Angular was a fairly popular choice across all industries, but strongest in finance. Developers in entertainment were the least likely to use Angular, their strongest preference being for React (65%).

React was the most popular framework in the survey overall, though with strong variations by industry. As mentioned, 65% of developers in entertainment chose it, but that fell to 46% in government and 38% in manufacturing. Manufacturing’s strongest choice for a framework was jQuery (52%), suggesting the industry is a late adopter. Government also had jQuery as its top pick at 52%.

Around 20% of developers in most industries reported using Vue, though it was notably more popular in advertising, with 34% of developers reporting it there.

“We also asked developers how they made decisions about choosing frameworks. Big majorities (60-90%) in every industry reported things like support, features, and stability being important, with little variation.”

Ember did not get a lot of mention from our respondents, with an average of 4% of developers reporting that they used it. Also in this range were Preact (5%), Hapi (5%), Next.js (5%), and Meteor (5%).

A surprisingly popular choice was Electron, which is obviously not a web framework at all but we included in our options. More than 20% of developers in every industry reported using Electron for some projects.

We also asked developers how they made decisions about choosing frameworks. Big majorities (60-90%) in every industry reported things like support, features, and stability being important, with little variation. Security was the lowest ranked concern for frameworks, averaging only 25%, though finance was most concerned at 30%. We’ll go more into attitudes to security later in this post.

Language choices

Obviously everybody in the survey uses JavaScript, but lots of respondents use another primary language as their back-end choice and there were noticeable variations by category.

Python was the choice of the unemployed. This sounds unflattering, but thanks to a poorly-phrased question on our part, the “unemployed” category includes people in full time education. Their questions (such as what level of schooling the respondent had completed) lend weight to the idea that the unemployed category was full of people who are still in school, so we believe Python is popular in education.

Java was the choice of the finance industry by quite a margin—41% versus 27% for the second most popular language in finance, .NET.

PHP was the choice of the advertising industry, again by a huge margin — 49% to 26% for Python, the second most popular. Why advertising companies choose PHP is unclear to us, but PHP is popular with advertising agencies putting together micro-sites. Furthermore, a question about company size showed that over 50% of advertising respondents worked at small companies (less than 50 people), so this category is probably dominated by small shops putting together these sorts of sites.

Our poorly-chosen “.NET” category (not really a language) was no industry’s first choice. Its strongest showing was in the manufacturing category at 33%, a very close second to Python at 34%. However, because we didn’t pick out C# and F# separately, it’s possible these results are skewed by people who use those languages, but don’t use .NET.

Ruby is a relatively unpopular option across all our respondents, chosen by less than 13% in all cases. Its weakest showing was in manufacturing, where only 3% chose it, and its strongest in education, where 13% did.

C and C++ were unsurprisingly most popular in the hardware-dominated manufacturing industry, at 9% and 18% of respondents respectively. C++ was more popular than C across the board. The retail industry is the least fond of C++, with only 4% of respondents reporting using it.

We also polled on Go, Swift, and Rust. Go was about 10% usage across the board, Swift was 3-5%, and Rust about 3% except in manufacturing, where it hit 7%.

Why do you choose JavaScript?

In general, people are pretty clear why they choose JavaScript: the huge ecosystem of libraries. An academic study of the same topic in 2013, An Empirical Analysis of Programming Language Choices (Meyerovich and Rabkin, 2013) exhaustively researched what makes developers choose programming languages and it reached the same conclusion. It’s not controversial to conclude that the modules in the npm registry are a major reason people choose JavaScript. However, people cited a number of other reasons and there were notable variations by industry.

Respondents who say they work in government were the least likely to report that they chose JavaScript for productivity gains, with only 51% saying so versus 60% in the finance industry, where this belief is strongest. Instead, government was most likely to believe that using JavaScript gave them performance gains: 31% of government respondents cite this, while in most other industries only 20-21% said this.

The advertising industry is the one most likely to say that developer satisfaction is a reason they choose to use JavaScript, with 50% of respondents saying so. This is notable since the advertising industry has a lot of PHP developers, and as we’ll see in a future analysis based on programming language choices, high satisfaction with JavaScript is a characteristic shared by most PHP developers.

“Across every industry, solid majorities (more than 90% in every case) expected to use JavaScript more or about the same amount as they had previously in the next 12 months.”

Cost savings as a reason for choosing JavaScript were most cited by respondents who work in finance (41%). This seems pretty logical, as finance is an industry that presumably can be relied upon to think of the costs of things.

The entertainment industry was the most likely to cite the size of the developer pool (41%) while the retail industry was most likely to say the ease of on-boarding new developers (40%) was their reason for choosing JavaScript. While JavaScript has a big pool of developers and we think on-boarding developers in JavaScript is pretty easy, it’s unclear why these industries in particular would note those advantages.

Finally, some people don’t get to choose what programming language they work in. This number was highest in government, at 21%.

Across every industry, solid majorities (more than 90% in every case) expected to use JavaScript more or about the same amount as they had previously in the next 12 months.

Attitudes to security

npm is making a big push to improve the security of the modules in the registry in 2018, so we asked our users about their attitudes toward security. You can see our previous post for a deeper analysis of attitudes to security, but there are some interesting variations by industry.

Firstly, everyone is concerned about the security of the code they write (87-90%) and of the open source code they use (73-79%). Developers who work in tech were the most likely to be concerned, but there wasn’t a lot of variation.

Majorities in every industry reported that they were dissatisfied with current methods of evaluating the security of code (51-60%). Advertising and entertainment were the most likely to say they were dissatisfied with available methods.

“Firstly, everyone is concerned about the security of the code they write (87-90%) and of the open source code they use (73-79%). Developers who work in tech were the most likely to be concerned, but there wasn’t a lot of variation.”

A whopping 90% of people working in education (non-students) were likely to be concerned about the quality of the code they wrote themselves. This was an interesting result as they were also the industry most likely to say they were doing nothing at all to assess security (33%):

The industry most likely to be actively doing something about security is the finance industry. They were the group most likely to participate in code reviews (81%), most likely to have external audits of their code (30%), and the most likely to be using automated scans of their code (52%). The tech industry was a close second to finance in all of these answers.

Private code

We explored the ways developers use and store private code.

Everybody reports having private code and GitHub is an extremely popular place to store it — 93% of the advertising industry report using it, with most industries in the high 80’s. Manufacturing was an outlier here, with only 75% of developers saying they used GitHub. We thought this was a strange result, but it was consistent; when asked how they discovered packages, developers in manufacturing were also the least likely to report using GitHub (14% versus 20% for other groups).

Developers also store private npm packages. Across all industries, about a third of developers said they had created private npm packages. However, their reasons for doing so varied.

“However, by far the most popular reason for everyone using private packages was the most obvious: the packages contain private IP. Majorities from 65% in education to 91% in manufacturing reported this as a reason for creating private npm packages.”

Developers sometimes use private modules to hold test projects which aren’t ready for release. This practice varies widely across industries, with 23% of developers in education saying they do this but only 8% in retail.

More common was keeping code private for release as open source later. Education was likely to do this, with 27% saying so, and government employees following close behind at 25%. Healthcare developers, who reported less engagement with open source, were the least likely to report this as a reason, at 9%.

A big reason for everyone to keep private packages was re-use by their co-workers — including majorities from 53% in finance and 67% in retail.

However, by far the biggest reason for everyone using private packages was the most obvious: the packages contain private IP. Majorities from 65% in education to 91% in manufacturing reported this as a reason for creating private npm packages.

Testing

Finally, we explored attitudes toward testing across the industries.

In keeping with its answers in every other category, finance was the most likely to report that they use a testing framework (88%). Government and manufacturing developers on the other hand were the least likely to use a testing framework, with only 68% of developers in both industries saying so.

Across every industry, the most popular testing framework choice was Mocha (50%), followed by Jasmine (33%) and Jest (19%). Unlike web framework choices, there was less variation between the popularity of testing frameworks across industries.

Conclusions

There were some fascinating differences across the industries. The advertising and entertainment industries often found themselves paired together in terms of practices. Finance was cautious and security-focused. Government and manufacturing were mostly on the opposite end of that scale, with lower reported use of best practices and modern tooling. Whether you’re in these industries or building products for developers in these industries, we hope these results help you get a better sense of the broader universe of JavaScript developers.

Thanks to everyone who took the survey. We’ll be providing more analysis in the near future, so stay tuned!

OPC-UA Platform Market Unidentified Segments – The Biggest Opportunity Of 2022

Latest business intelligence report released on Global OPC-UA Platform Market, covers different industry elements and growth inclinations that helps in predicting market forecast. The report allows complete assessment of current and future scenario scaling top to bottom investigation about the market size, % share of key and emerging segment, major development, and technological advancements. Also, the statistical survey elaborates detailed commentary on changing market dynamics that includes market growth drivers, roadblocks and challenges, future opportunities, and influencing trends to better understand OPC-UA Platform market outlook. List of Key Players Profiled in the study includes market overview, business strategies, financials, Development activities, Market Share and SWOT analysis are ABB Ltd. (Switzerland)

Advanced Industrial Automation Group (United States)

Emerson Electric Company (United States)

General Electric (United States)

Infineon Technologies AG (Germany)

National Instruments (United States)

Mitsubishi Electric (Japan)

Rockwell Automation, Inc. (United States)

Schneider Electric SE (France)

Siemens AG (Germany)

Communications on an Open Platform United Architecture, often known as OPC-UA, is a data interchange standard for industrial communication that is supposed to be secure and dependable. Multiple OPC standards exist, each of which is designed in a series of specifications to meet the needs of industry suppliers and other end-users. Various company verticals are leveraging to seek operational performance, consequently driving the OPC-UA Network Industry growth, due to the increased implementation of industrial communication for enhanced industrial automation and building automation processes and communication protocol efficiency. Furthermore, rapid advancements in the field of IoT are hastening the trend toward promoting factory modernization efforts, such as the diversity of connected equipment. In addition, the introduction of the 5G mobile communications standard has increased M2M communication capabilities, building automation, and other wireless network solutions such as modular programming and virtual private networks, which are expected to fuel the OPC-UA Network Market. As a result, the rising demand for faster, scalable, secure, and resilient interoperable communication protocols for a variety of industrial automation processes, as well as rapid digitalization across a variety of industry verticals, are expected to propel the OPC-UA Network Market forward. Key Market Trends: Growing adoption of OPC UA in OPC Technology

The emergence of 5G Mobile Communications Standard Accelerated the M2M Communication Possibilities

Opportunities: Increasing adoptions of OPC UA in the Manufacturing Industry

Growing Popularity of Industrial Control and Factory Automation Due to 4.0 and other Digital Technologies, Further Creates Opportunities for the Market

Market Growth Drivers: The growing popularity of smart factory

The emergence of Industrial Robots

Challenges: Major Skill labor Shortage The Global OPC-UA Platform Market segments and Market Data Break Down by Protocols (Data access (DA), Alarm & Events (AE), Historical Data Access (HDA), XML Data Access (XML DA), Data eXchange (DX)), Offerings (Hardware (Modules, Gateways, Servers, and Others), Software and Services), End User (Pharmaceuticals, Oil & Gas, Power & Energy, Chemicals, Water/Waste Water Management, Building automation, Manufacturing)

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AMA Research & Media LLP