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Microservices Architecture Market Share 2021: Global Trends, Key Players, Industry Analysis Report to 2027

The global Microservices Architecture market size is expected to reach $8.073 billion by 2026 from $2.073 billion in 2018, registering a CAGR of 18% from 2021 to 2027. Microservices architecture (MSA) is the process of developing large-scale software systems. A monolithic application is broken down into smaller, independent services that can be managed. These services are primarily focused on getting the job done efficiently and communicating via language-agnostic protocols.

A full report of Microservices Architecture Market available at: https://www.orionmarketreports.com/microservices-architecture-market/60794/

Key Market Players

Tata Consultancy Services Limited

IBM Corporation

Microsoft Corporation

Oracle

Salesforce.com.

Datawire

MuleSoft Inc.

Software AG

CA Technologies

Syntel

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Microservices Architecture Market- Segmentation

By Component

Solution

Service

By Deployment Type

On-premise

Cloud

By Organization Size

Large Enterprises

Small & Medium Enterprises

By Industry Vertical

BFSI

Manufacturing

Retail & E-commerce

IT & Telecom

Healthcare

Government

Others

Geographic Coverage

North America Market Size and/or Volume

Latin America Market Size and/or Volume

Europe Market Size and/or Volume

Asia-Pacific Market Size and/or Volume

Rest of the world Market Size and/or Volume

The report covers the following objectives:

Proliferation and maturation of trade in the Microservices Architecture Market.

The market share of the Microservices Architecture Market, supply and demand ratio, growth revenue, supply chain analysis, and business overview.

Current and future market trends that are influencing the growth opportunities and growth rate of the Microservices Architecture Market.

Feasibility study, new market insights, company profiles, investment return, revenue (value), and consumption (volume) of the Microservices Architecture Market.

Recent Developments

Market Overview and growth analysis

Import and Export Overview

Volume Analysis

Current Market Trends and Future Outlook

Market Opportunistic and Attractive Investment Segment

Key Questions Answered by Microservices Architecture Market Report

What was the Microservices Architecture Market in 2020 and 2021; what are the estimated growth trends and market forecast (2021-2027).

What will be the CAGR of Microservices Architecture Market during the forecast period (2021-2027)?

Which segments (product type/applications/end-user) were most attractive for investments in 2018? How are these segments are expected to grow during the forecast period (2021-2027)?

Which manufacturer/vendor/players in the Microservices Architecture Market was the market leader in 2018?

Overview on the existing product portfolio, products in the pipeline, and strategic initiatives taken by key vendors in the market.

About Us:

Orion Market Reports (OMR) endeavors to provide exclusive blend of qualitative and quantitative market research reports to clients across the globe. Our organization helps both multinational and domestic enterprises to bolster their business by providing in-depth market insights and most reliable future market trends. Our reports address all the major aspects of the markets providing insights and market outlook to global clients.

Media Contact: Company Name: Orion Market Reports Contact Person: Mr. Anurag Tiwari Email: [email protected] Contact no: +91 780-304-0404

Microservices Architecture Market (SARS-CoV-2, Covid-19 Analysis) By Deployment , By Service, By Vertical- Forecast 2023

Related Link : https://www.marketresearchfuture.com/sample_request/3149

Market Scenario:

Microservice architecture is defined as a method for development of application in which the large application is divided into small modular services. Each module assist a specific business goal and uses simple language with well-defined interface to communicate with other services.

Microservice architecture is increasingly adopted by organization as an inbuilt mechanism for developing enterprise application. Cloud based solution such as software as a service (SaaS) and platform as a service (PaaS) is driving the market.Categroization of connected device such as smartphones, tablets, drones, wearable, smart home appliances and fitness tracker is driving the microservices architecture market.The key trends that is majorly effecting the market include loose coupling, deployment and domain driven design. As microservices operates on simple and smaller services, there is an increase demand for cloud solution and is one of the important factor driving the market.

The advantage of microservices architecture includes improvement in fault isolation system, provide easy platform for new developer and helps to eradicate long term commitment on single technology. The adoption of microservice architecture has assist many big enterprises to begin there transitions as compared to monolithic design structure.

By deployment segment, the microservices architecture market includes cloud based and on-premise. The adoption of cloud based microservices architecture is driving the market. Cloud based microservices architecture provides scalability, cost efficiency and 24x7 availability. To enable organization with healthy microservices, cloud based platform automatically shift the instances to servers or vendor management system when the software or hardware on which they are running fails.

The microservices architecture market is expected to grow at approx. USD 33 Billion by 2023, at 17% of CAGR between 2017 and 2023.

Key Players:

The prominent players in the microservices architecture market are – Cognizant (U.S.), International Business Machines Corporation (U.S), Microsoft Corporation (U.S.), Datawire (U.S.), Infosys Limited (India), Mulesoft (U.S.), Software AG (Germany), Nginx Inc. (U.S.), Salesforce.Com, Inc. (U.S.) among others.

Segments:

Microservices Architecture Market for segment on the basis of by deployment, by type and by Vertical.

Microservices Architecture Market by Deployment:

Cloud based

On-Premise

Microservices Architecture Market by Service:

Inventory Microservice

Accounting Microservice

Shipping Microservice

Store Microservice

Microservices Architecture Market by Vertical:

Healthcare

BFSI

Government

IT & Telecommunication

Manufacturing

Retail

Energy & Utilities

Media & Entertainment

Others

Regional Analysis:

The regional analysis of microservice architecture market is being studied for region such as Asia Pacific, North America, Europe and Rest of the World. North America region accounts for higher market share. North America region possess highest market share due to major microservice architecture players present in the region. Asia-Pacific is expected to be fastest growing market as large number of organizations are adopting microservices architecture to meet needs of modern application development.

More Information : https://www.marketresearchfuture.com/reports/microservices-architecture-market-3149

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キーポイント An API gateway began by performing the routing functionality that was originally in the monolith, creating a common facade for the entire application. API gateways evolved further to meet the needs of microservices by incorporating traffic management and real-time service discovery. The cloud-native era requires API gateways to participate in release automation and expose metrics to full cycle development teams. 原文(投���日：2020/05/14)へのリンク インターネットはこの数十年間で、私たちの生活のあらゆる場所に存在するようになりました。拡大を続けるオンラインサービスは、より高度なWebアプリケーションを開発する原動力となっています。このようなWebアプリケーションの進化が、データセンタエッジの進化を促しているのです -- データセンタエッジは、これらWebアプリケーションをインターネットに接続するハードウェアとソフトウェアのスタックであり、ユーザが企業のビジネスサービスと最初に対話する場所です。エッジは単純なハードウェアロードバランサとして始まり、APIゲートウェイやコンテンツ配信ネットワーク、ロードバランサを構成する、ハードウェアとソフトウェアプロキシのフルスタックへと進化しました。今回の記事では、アプリケーションアーキテクチャとワークフローの進化をもとに、データセンタエッジの進化の軌跡を追ってみたいと思います。 インターネット初期 1990年代中頃、Webアプリケーションアーキテクチャは初期段階にありました。Ruby on RailsやDjangoといったWebフレームワークはまだ開発されておらず、Apache StrutsやJ2EEといったテクノロジが勢いを得ていた時代です。 データベース層、アプリケーション層、プレゼンテーション層で構成される古典的なN層アーキテクチャが、当時のアプリケーションアーキテクチャのデファクトでした。N層アーキテクチャは水平スケーラブルです。すなわち、トラフィックの増加に対して、アプリケーションアーキテクチャとプレゼンテーション層のインスタンスを追加することで対応が可能です。(データベースの問題が別にありますが。)  アプリケーションとプレゼンテーション層の複数のインスタンスをインターネットに接続する必要から、データセンタエッジの最初のイテレーションであるロードバランサが生まれました。 この時代のロードバランサの責務は、アプリケーションのインスタンス間にトラフィックをルーティングして、高可用性とスケーラビリティを実現することでした。一般的にはハードウェアアプライアンスでしたが、2001年にHAProxyがリリースされると、ソフトウェアロードバランサというコンセプトが一般に広がり始めました。 Web 2.0 Darcy DiNucci氏は1999年、それまでの一方向のメディアから、Webサイトを通じてユーザが参加する双方向のメディアへというインターネットの進化を表現するために、Web 2.0ということばを生み出しました。コンテンツの受け身なコンシューマではなく、Web 2.0では、ユーザが相互に積極的な貢献と関与を行います。 AJAX(Asynchronous JavaScript and XML)開発技術が広く普及したのはこの頃です。データ交換をプレゼンテーションから分離する��とによってAJAXは、はるかにリッチなユーザエクスペリエンスをエンドユーザのために作り出しました。このアーキテクチャはまた、クライアントがWebアプリケーションと常時データの送受信を行うという、"よりチャット"なクライアントも誕生させました。 Eコマースが立ち上がり始めたのもこの時代です。クレジットカード情報の安全な送信が大きな懸念となったのは、この時が始めてでした。クライアントとサーバ間のセキュアなコネクションを保証するため、NetscapeがSSL(Secure Socket Layer) -- 後にTLS(Transport Layer Security)へと進化しました -- を導入しました。 このようなネットワークの動向 -- 暗号化された通知と、長時間持続するコネクションによる多数のリクエスト -- がエッジを、それまでの標準的なハードウェア/ソフトウェアロードバランサから、より特化されたアプリケーションデリバリコントロール(ADC)へと進化させたのです。ADCにはSSLオフロードやキャッシュや圧縮など、いわゆるアプリケーションアクセラレーション(Application Acceleration)のためのさまざまな機能が含まれています。この機能向上は同時に、設定の複雑さも増加させました。VCLやSSIのような、プロプライエタリな標準がたくさん現れました。ロードバランサはもはや、単なるロードバランスを行うものではなくなったのです！ Webスケールの時代 2010年代の初めには、数多くのクラウド中心の企業が、ユーザベースの指数級数的な成長を経験しました。これらの企業を舞台裏で支えるソフトウェアは、当初はモノリシックなWebアプリケーションとしてアーキテクトされていて、Ruby on RailsやDjangoといった使い勝手のよいWebフレームワークが使用されました。その後、ユーザベースが天文学的な数字にまで膨れ上がるにつれて、Webスケールの問題が新たなタイプの課題としてこれらの企業に持ち上がり、それまでとは違うアーキテクチャの必要を迫ったのです。Twitterの悪名高いクジラの画面(fail whale)はおそらく、当時の企業が直面し、Webスケールのアプリケーション開発に取り組む最初のきっかけとなった課題の代表例でしょう。 TwitterやFacebook、New Relicといった企業が、機能の重要な部分を、従来のモノリスから独立的にデプロイ可能なサービスへとリファクタする作業に着手しました。重要なビジネス機能をサービスとしてデプロイすることで、アプリケーション全体をさまざまな側面で独立的にスケールアップし、管理することが可能になったのです。これら独立したサービスへのトラフィックは、モノリスを通じてルーティングされていました。そのため、ルーティングに何らかの変更を行う場合には、モノリス全体を頻繁に再デプロイしなければならず、変更作業のボトルネックになっていました。 APIゲートウェイの台頭 これらの企業を含む多くの企業は、広範な技術コミュニテイによって自分たちのイノベーションや発見を共��していました。このような企業の初期に携わった技術者の多くが、他の企業に移籍したり、あるいは自らの知識をもとにしたスタートアップを立ち上げたりしました。当時のアーキテクチャから得られた教訓のひとつは明白でした -- すなわち、リファクタされたサービスに対して、モノリスは単なるルータの役割を果たしていたのです。 この認識から、初期のAPIゲートウェイの開発が始まりました。APIゲートウェイは元々モノリスが行っていたルーティング機能を代行すると同時に、アプリケーション全体に対する共通的なファサード(facade)を形成していました。レート制限や認証、ルーティングといったアプリケーションレベルの横断的な機能をAPIゲートウェイに集中化することにより、個々のサービスに必要な機能の重複を削減することが可能になりました。 クラウドネイティブの時代: マイクロサービス 今日の私たちは、クラウドネイティブの時代にいます。この時代でキーとなるのが、マイクロサービスの急増です。マイクロサービスは、アプリケーションアーキテクチャのあらたな動向を示しています。個々のマイクロサービスは自己完結的なビジネス機能を表現しており、アプリケーションの他のマイクロサービスとは独立して開発され、リリースされます。開発サイクルを分離することで、企業のクラウド向けソフトウェア開発プロセスを、より効率的にスケールアップすることが可能になります。 マイクロサービスはさまざまな環境 — 仮想マシン、ベアメタル、コンテナ、アズ・ファンクション — にデプロイ可能であるため、APIゲートウェイは、適切なマイクロサービスへのルーティングという重要な役割を担うことになります。 APIゲートウェイはいくつかの領域において、マイクロサービスのニーズに応えるために進化しています。特に、最近のAPIゲートウェイは、 認証やレート制限、APIの公開、メトリクス収集といった、横断的なアプリケーションレベルの関心事を引き続きサポートしています。 従来のアプリケーションデリバリコントローラに見られたようなトラフィック管理機能を取り込んでいます。高度なロードバランシングやキャッシュ、オートリトライやタイムアウトといったレジリエンスに関するセマンティクスなどがこれに含まれます。 リアルタイム・サービスディスカバリをサポートします。Kubernetesやサーバレス環境など、短命(ephemeral)な環境へのマイクロサービスのデプロイが増えているため、マイクロサービスの全インスタンスのネットワークロケーションの検索が重要になっているのです。 フルサイクル開発: クラウドネイティブなワークフロー マイクロサービスで変わるのはアプリケーションアーキテクチャだけではありません。開発ワークフローも変わります。マイクロサービスでは、各チームがソフトウェアデリバリの権限を所持します。何よりも重要なのは、チームがソフトウェア開発ライフサイクルのすべて -- 設計から開発、テスト、デプロイメント、リリースまで -- の責任を負う、ということです。これらのチームをオンコール・ローテーションに参加させている企業もあります(いわゆる"You build it, you run it"です)。フルサイクル開発(full cycle development)とNetflixが呼んだことで有名になったこの開発モデルは、ソフトウエアの開発と提供の方法における変革です。 このようなワークフローの変化は、データセンタエッジにも影響を与えています。APIゲートウェイ(およびエッジスタックの他のエレメント)がマイクロサービスアーキテクチャに対応しなければならない、というだけではありません。エッジ全体が、フルサイクル開発チームによってアクセスおよび管理が可能なものでなくてはならないのです。今日のクラウドネイティブな時代においては、エッジ管理に関する2つの検討事項がおもに議論されています。 検討事項１: リリースとデプロイメントのスケールアップ デプロイメントとは、運用インフラストラクチャ上にコード更新をインストールするプロセスです。リリースは、コード更新を実際のプロダクトユーザに公開するプロセスです。デプロイメントとリリースをひとつのオペレーション(いわゆる"リリース・イン・プレース"モデル)として扱う場合もありますが、この方法では、デプロイメントのリスクをプロダクトユーザに見せることになります。例えば、必須の設定パラメ���タに関するミスがエンドユーザの目に見える機能停止を発生させる、ということが、リリース・イン・プレースモデルでは起こり得るのです。2つのフェーズを分離すれば、デプロイメントのリスクがエンドユーザに露呈することはなくなります。 データセンタエッジは、リリースにおいて重要な役割を果たします。特定バージョンのマイクロサービスへのトラフィックフローを管理することで、エンドユーザに対してアップデートを実際にリリースする責務を持っているのです。さらに、最新のエッジサービスでは、カナリアリリース(一定割合のトラフィックを、新しいアップデートに対して徐々に振り分けていく)やblue/greenロールアウトといった、インクリメンタルリリースのストラテジをサポートしています。 リリースを調整するためには、フルサイクル開発チームがエッジをコントロールする必要があります。ルーティング(どのバージョンのサービスが運用トラフィックを受信するのか)だけでなく、重み付きルーティング(カナリアリリースで必要)やトラフィックのシャドウイング(テスト目的で、サービスのテストバージョン用にトラフィックのコピーを生成する)といった詳細なコントロールも必要です。開発チームにリリースとデプロイメントを管理させることで、高度に複雑なアプリケーションでもサポートできるように、これらのプロセスをスケールアップすることが可能になります。 検討事項2: サービスの範囲の監視 フルサイクル開発チームは、自分たちのマイクロサービスの運用にも責任を持つことが少なくありません。この成功に不可欠なのが、マイクロサービスのパフォーマンスをリアルタイムで可視化することです。エッジは、マイクロサービスに出入りするすべてのトラフィックを分析することによって、マイクロサービスの挙動に関する重要な洞察を提供します。これによってレイテンシやスループット、エラー率といったメトリクスの報告が可能になり、アプリケーションの動作状態に対する洞察を提供するのです。 これらのメトリクスを、アプリケーション内の他の場所で収集されたメトリクスと関連付けることによって、アプリケーション動作のエンド・ツー・エンドのビューを完成させることが可能になります。このような関連付けは、最近ではOpenTracingなどの標準を使用して、要求データに相関関係識別子(correlation identifier)を導入することで実現されています。最終的に、最新のエッジスタックが収集したこれらメトリクスはすべて、担当するフルサイクル開発チームに対して、カスタマイズ可能なダッシュボードとして公開する必要があります。 エッジポリシ管理 昨今のクラウドネイティブなワークフローの重要性を考えた時、フルサイクル開発チームは、どのようにエッジを管理すればよいのでしょうか？残念なことに、エッジスタックのすべてのコンポーネントは、伝統的な理由によって運用担当者が管理しています。また、運用上のインターフェースは、フルサイクル開発チームのアプリケーション開発者には機能不足です。その上、エッジコンポーネントは分離した形で運用されるため、包括的なインターフェースが用意されていないことが少なくありません。結局のところ、フルサイクル開発者はフルタイム運用担当者ではありません — 自分たちの必要とする部分でエッジ機器を操作できれば、それだけでよいのです。 幸運なことに、Kubernetesエコシステムが指針とヒントを与えてくれています。Kubernetesモデルでは、ユーザは自身の意図をポリシとして、YAMLベースの共通コンフィギュレーション言語で宣言します。従来のRESTやUIベースのインターフェースとは違い、宣言型モデルでは、ポリシをコード化してソース管理システム(GitOpsなど)で管理することが可能であるため、監査可能性、バージョン管理、すべてのユーザへの透過性といったものが実現します。さらにKubernetesモデルでは、複数のポリシファイルをクラスタ全体のポ���シ構成に集約するという、分散型ポリシをサポートしています。Azure Applcation GatewayやKong用のIngressコントローラの開発で分かるように、このモデルはAPIゲートウェイでも採用されています。これらのプロダクトの管理には、当初はREST APIが使用されていましたが、宣言型パラダイムへのシフトによって過去のものになりつつあります。 分散型で宣言型構成のこのモデルをエッジにまで拡張することは、フルサイクル開発チームが自分たちのエッジポリシを、他チームとは独立的に管理する上で不可欠なものなのです。このポリシは、マイクロサービスのコードと合わせてソースコントロールで管理することができます。これによってポリシを実際の開発プロセスの一部として管理できるようになります。独立したコンフィギュレーションを別管理する必要はありません。 要約 過去数十年にわたって、エッジは単なるロードバランサから、APIゲートウェイやロードバランサなどを含むハードウェアとソフトウェアプロキシのフルスタックへと進化しました。この進化を促したのはアプリケーションアーキテクチャであり、最近ではアプリケーション開発ワークフローです。 今日のクラウドネイティブアーキテクチャには、フルサイクル開発チームによるアクセスの可能なエッジスタックが必要です。宣言型、分散型コンフィギュレーションとしてエッジの全機能を公開することによって、フルサイクル開発チームには、エッジのメリットを活用した開発ワークフローの促進が可能になります。この中には可観測性の向上や、デプロイメントとリリースの分離などが含まれます。最終的にはこれが、イテレーション時間の高速化、リリースの安定性向上、ユーザに提供する価値の増加などにつながるのです。 著者について Richard Li氏は、Datawireの創業者のひとりでCEOです。Datawireは、Telepresence(ローカル開発環境)やAmbassador API Gatewayなど、Kubernetes開発を促進する人気のオープンソースツールを提供しています。氏はDuo SecurityやRapid7、Red Hatなど、複数のテクノロジスタートアップを渡り歩いたベテランで、Kubernetesやマイクロサービスの専門家として認知されています。ApacheConやMicroservices Practionner Summit、KubeCon、O'Reilly Velocityなど、さまざまなカンファレンスで講演もしています。氏はMITから、コンピュータ��学におけるBSとMEngを所持しています。

Microservices Architecture Market 2023 – Sales Revenue, Grow Pricing nd Industry Growth Analysis

Microservices Architecture Market

Market Research Future (MRFR) has revealed in its recently published report that the global microservices architecture market is projected to reach a valuation of USD 33 Bn by the end of 2023. The microservices architecture market is estimated to register a CAGR of 17% during the forecast period 2017 to 2023. The application of the technology across different industry verticals such as BFSI, retail, healthcare, IT & telecommunication, etc. is expected to drive the demand for microservices architecture over the next couple of years.

Cloud-based services offer availability, scalability and cost efficiency. The adoption of a cloud-based solution such as software as a service (SaaS) and platform as a service (PaaS) has been favoring the acceleration of revenue creation for market players for years. The trend is poised to perpetuate over the next few years. Furthermore, the penetration of connected devices such as the smartphones, drones, wearable devices, tablets, laptops, etc. have paved the way for growth opportunities of the microservices architecture market, which is likely to complement market expansion during the assessment period. Other factors responsible for catalyzing market proliferation include an accessible platform for new developers, improvement in fault isolation system, eradication of long-term commitment on a single technology, etc.

Market Segmentation:

By deployment, the global microservices architecture market has been segmented into cloud and on premise.

By application, the microservices architecture market is segmented into healthcare, BFSI, government, IT & telecommunication, manufacturing, retail, media, and others.

By service, the global microservices architecture segment has been segmented into inventory microservice, accounting microservice, shipping microservice, and store microservice.

Regional Analysis:

By region, the global microservices architecture market has been segmented into Asia Pacific, North America, Europe and Rest of the World. North America is likely to retain a dominant position globally during the forecast period. The growth is attributable to the growth strategies being implemented by the key players in the region. The constant innovation in technology and investments in its adoption are fueling the microservices architecture market growth in the region. Asia Pacific is poised to exhibit a relatively higher CAGR owing to the large-scale adoption of the technology in the region. The presence of emerging markets such as India and China is likely to accelerate the adoption of the technology. Europe is anticipated to remain a significant growth pocket over the next couple of years. Meanwhile, the Rest of the World is estimated to exhibit sluggish growth owing to limited technological penetration in some parts of the region.

Competitive Dashboard:

Some of the key players profiled by MRFR in the report are Cognizant (U.S.), Microsoft Corporation (U.S.), Datawire (U.S.), Nginx Inc. (U.S.), Infosys Limited (India), International Business Machines Corporation (U.S.), Mulesoft (U.S.), Software AG (Germany), and Salesforce.Com, Inc. (U.S.).

Industry Developments:

In August 2018, National Australia Bank adopted microservices for USD 1.5 billion for transforming the bank’s IT architecture. NAB’s IT transformation touches on three main points, viz. the adoption of microservices and APIs, data delivered as a service on the cloud, and, in-depth use of cloud.

More Information @

Microservices Architecture Market Research Report- Forecast to 2023 | MRFR

Microservices Architecture Market is expected to reach approximately USD 33 Billion by 2023, Global …

Read on marketresearchfuture.​com

About Market Research Future:

At Market Research Future (MRFR), we enable our customers to unravel the complexity of various industries through our Cooked Research Reports (CRR), Half-Cooked Research Reports (HCRR), Raw Research Reports (3R), Continuous-Feed Research (CFR), and Market Research and Consulting Services.

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According to the report analysis, ‘Microservice Architecture Market - Global Drivers, Restraints, Opportunities, Trends, and Forecasts up to 2023’ states that there are several key players which are presently functioning in this market more actively for attaining the highest market share around the globe by doing effective developments in the method of doing work which increase the demand and provide better consumer satisfaction includes Cognizant, IBM corporation, Datawire, Salesforce.com, Infosys Ltd., MuleSoft INC., and Software AG. In addition, as consumers are in search for the better solutions, there is predictable to be an increasing number of partnerships. There is likely to be a significant growth in the number of mergers, acquisitions, and strategic partnership during the forecast period. Not only has this, many of the focused key players of this market are investing high amount for establishing the related research and development programs which become beneficial for leading the market growth across the globe in the short span of time with the significant growth in the requirement.

Microservice architecture is a digital business asset predominantly for numerous service suppliers as it keeps the services more competitive, relevant, in demand, and reactive to dissimilarities in the market. Hence, it is well-defined as the technique of emerging software applications in which the large monolithic applications are being segmented into independently deployable small modular services. In addition, MSA also delivers an opportunity for improving the services being suggested for different consumers by supplementing or accumulation value to a prevailing service. Nevertheless, the key players of this market are functioning more actively for developing the specifications of the technology for delivering better services and opportunities for developing the offered services which further proved to be beneficial for leading the fastest market growth during the forecasted period around the globe with the handsome amount of share more efficiently.

According to research, the Microservice Architecture market is predictable to reach USD 32.01 billion by 2023, growing at a significant CAGR of around 16.17% during the forecast period. Whereas, on the basis of region, the market is spread across the globe more effectively while, The Americas is the leading region, which controls the principal share for MSA due to the existence of major players in the region. In addition, they have the principal base for technological innovations and implementation, and are predominantly one of the global manufacturers of automation equipment and is home to several domestic industries. Asia Pacific is among the fastest rising markets for MSA. The region boasts of main underdeveloped economies with the objective on increasing data centers and the rising penetration rate of smartphones, drones, and tablets.

Although, with the accumulative acceptance of the cloud-based software as a service (SaaS) suppliers in various business platforms, such as enterprise business, has controlled to the demand to assimilate numerous application suppliers and the services to help the enterprise. As the MSA principally works on smaller services, the upsurge in the acceptance of cloud is one of the foremost fueling factors for the growth of the market. Therefore, in the near future, it is expected that the market of microservice architecture will increase across the globe more significantly over the recent few years.

 For more information on the research report, refer to below link: 

Global Microservice Architecture Market

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The open-source Istio Service Mesh

*I thought I had seen it all, but apparently all that wasn’t yet enough.  Because taxis.

https://istio.io/blog/istio-service-mesh-for-microservices.html

Introducing Istio: A robust service mesh for microservices

Posted on Wednesday, May 24 2017.

Google, IBM, and Lyft (((?))) are proud to announce the first public release of Istio: an open source project that provides a uniform way to connect, secure, manage and monitor microservices. 

Our current release is targeted at the Kubernetes environment; we intend to add support for other environments such as virtual machines and Cloud Foundry in the coming months.

 Istio adds traffic management to microservices and creates a basis for value-add capabilities like security, monitoring, routing, connectivity management and policy. The software is built using the battle-tested Envoy proxy from Lyft, and gives visibility and control over traffic without requiring any changes to application code. Istio gives CIOs a powerful tool to enforce security, policy and compliance requirements across the enterprise.

Background

Writing reliable, loosely coupled, production-grade applications based on microservices can be challenging. As monolithic applications are decomposed into microservices, software teams have to worry about the challenges inherent in integrating services in distributed systems: they must account for service discovery, load balancing, fault tolerance, end-to-end monitoring, dynamic routing for feature experimentation, and perhaps most important of all, compliance and security.

Inconsistent attempts at solving these challenges, cobbled together from libraries, scripts and Stack Overflow snippets  (((what a pejorative))) leads to solutions that vary wildly across languages and runtimes, have poor observability characteristics and can often end up compromising security.

One solution is to standardize implementations on a common RPC library like gRPC, but this can be costly for organizations to adopt wholesale and leaves out brownfield applications which may be practically impossible to change. 

Operators need a flexible toolkit to make their microservices secure, compliant, trackable and highly available, and developers need the ability to experiment with different features in production, or deploy canary releases,  (((nice term-of-art))) without impacting the system as a whole.

Solution: Service Mesh

Imagine if we could transparently inject a layer of infrastructure between a service and the network that gives operators the controls they need while freeing developers from having to bake solutions to distributed system problems into their code. 

This uniform layer of infrastructure combined with service deployments is commonly referred to as a service mesh. 

Just as microservices help to decouple feature teams from each other, a service mesh helps to decouple operators from application feature development and release processes. Istio turns disparate microservices into an integrated service mesh by systemically injecting a proxy into the network paths among them.

Google, IBM and Lyft joined forces to create Istio from a desire to provide a reliable substrate for microservice development and maintenance, based on our common experiences building and operating massive scale microservices for internal and enterprise customers. Google and IBM have extensive experience with these large scale microservices in their own applications and with their enterprise customers in sensitive/regulated environments, while Lyft developed Envoy to address their internal operability challenges. Lyft open sourced Envoy after successfully using it in production for over a year to manage more than 100 services spanning 10,000 VMs, processing 2M requests/second.

Benefits of Istio

Fleet-wide Visibility: Failures happen, and operators need tools to stay on top of the health of clusters and their graphs of microservices. Istio produces detailed monitoring data about application and network behaviors that is rendered using Prometheus & Grafana, and can be easily extended to send metrics and logs to any collection, aggregation and querying system. Istio enables analysis of performance hotspots and diagnosis of distributed failure modes with Zipkin tracing.

Resiliency and efficiency: When developing microservices, operators need to assume that the network will be unreliable. Operators can use retries, load balancing, flow-control (HTTP/2), and circuit-breaking to compensate for some of the common failure modes due to an unreliable network. Istio provides a uniform approach to configuring these features, making it easier to operate a highly resilient service mesh.

Developer productivity: Istio provides a significant boost to developer productivity by letting them focus on building service features in their language of choice, while Istio handles resiliency and networking challenges in a uniform way. Developers are freed from having to bake solutions to distributed systems problems into their code. Istio further improves productivity by providing common functionality supporting A/B testing, canarying, and fault injection.

Policy Driven Ops: Istio empowers teams with different areas of concern to operate independently. It decouples cluster operators from the feature development cycle, allowing improvements to security, monitoring, scaling, and service topology to be rolled out without code changes. Operators can route a precise subset of production traffic to qualify a new service release. They can inject failures or delays into traffic to test the resilience of the service mesh, and set up rate limits to prevent services from being overloaded. Istio can also be used to enforce compliance rules, defining ACLs between services to allow only authorized services to talk to each other.

Secure by default: It is a common fallacy of distributed computing that the network is secure. Istio enables operators to authenticate and secure all communication between services using a mutual TLS connection, without burdening the developer or the operator with cumbersome certificate management tasks. Our security framework is aligned with the emerging SPIFFE specification, and is based on similar systems that have been tested extensively inside Google.

Incremental Adoption: We designed Istio to be completely transparent to the services running in the mesh, allowing teams to incrementally adopt features of Istio over time. Adopters can start with enabling fleet-wide visibility and once they’re comfortable with Istio in their environment they can switch on other features as needed.

Join us in this journey

Istio is a completely open development project. Today we are releasing version 0.1, which works in a Kubernetes cluster, and we plan to have major new releases every 3 months, including support for additional environments. Our goal is to enable developers and operators to rollout and operate microservices with agility, complete visibility of the underlying network, and uniform control and security in all environments. We look forward to working with the Istio community and our partners towards these goals, following our roadmap.

Visit here to get the latest released bits.

Community

We are excited to see early commitment to support the project from many companies in the community: Red Hat with Red Hat Openshift and OpenShift Application Runtimes, Pivotal with Pivotal Cloud Foundry, Weaveworks with Weave Cloud and Weave Net 2.0, Tigera with the Project Calico Network Policy Engine and Datawire with the Ambassador project. We hope to see many more companies join us in this journey.

To get involved, connect with us via any of these channels: istio.io for documentation and examples.

The [email protected] mailing list for general discussions, or [email protected] for key announcements regarding the project.

Stack Overflow for curated questions and answers

GitHub for filing issues

@IstioMesh on Twitter

From everyone working on Istio, welcome aboard!

The Istio Team

Service Management in Cloud  Environment

https://www.linkedin.com/post/edit/6351339103073734656

http://tech.rithanya.com/tech/publication-calendar

Building Ambassador, an Open Source API Gateway on Kubernetes and Envoy

ICYDK: API Gateways are a popular pattern for exposing your service endpoints to the consumer. At Datawire, we wanted to expose a number of our cloud services to our end users via an API Gateway. All of our cloud services run in Kubernetes, so we wanted to deploy the API gateway on Kubernetes as well. And finally, we wanted something that was open source. We took a look at Tyk, Kong, and a few other open source API Gateways, and found that they had a common architecture — a persistent data store (e.g., Cassandra, Redis, MongoDB), a proxy server to do the actual traffic management, and REST APIs for configuration. While all of these seemed like they would work, we asked ourselves if there was a simpler, more Kubernetes-native approach. https://goo.gl/GXbmf7 #DataIntegration #ML

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Microservices Architecture Market: Opportunity Analysis and Industry Forecast upto 2025

Microservices architecture (MSA) is a method of developing software systems in which large monolithic applications are broken down into smaller manageable independent services which focuses on performing one task efficiently and communicate via language agnostic protocols. Instead of focusing all teams on one large application, smaller independent services are managed by different smaller teams which enables superior scalable systems, improved productivity, and faster development cycles. By doing so, the responsibility of the codes running under that particular individual service is given to one particular development group.

The philosophy behind microservices architecture is to do one thing and do it well. Some of the key benefits of microservices architecture are, it supports consumer choice, transparency and enablement, it extends the reach of business, and most importantly it improves business’ time to market by providing technology agility. With the help of microservices architecture, important security patches can be distributed faster as it uses simpler code structures compared to monolithic applications. Microservices architecture is a digital business asset especially for service providers as it keep the services more competitive, relevant, in demand and responsive to change. Microservices architecture also provides an opportunity to enhance service offerings for different consumer audiences by supplementing or adding value to an existing service.

The increased adoption of Cloud based Software as a Service (SaaS) providers in the enterprise business functionality have increased the need to integrate multiple application providers and services to support the enterprise. As microservices function on smaller and simpler services, the increase in Cloud adoption is one of the driving factors for the microservices architecture market.

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Proliferation of connected devices such as wearables, smartphones, smart home appliances, tablets, drones, and fitness trackers is the key driving factor for the microservices architecture market. This is because today’s business customers expect a feature update for software applications on a much quicker iteration cycle than what traditionally existed. Microservices architecture is much more responsive to market requirements as it is an approach toward building, scaling, evolving, and deploying the individual services in the cycle.

There are certain scenarios such as possible communication failures or network latency that need to be considered while adapting to microservices architecture. This is due to the fact that in microservices architecture, to communicate with other services, REST API (Representational State Transfer Application Program Interface) is used which gives rise to additional HTTP call overhead. However, to build the more granular services, technologies such as Internet of Things (IoT) and Virtualization presents the better opportunity for the microservices architecture market.

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The global microservices architecture market has been segmented on the basis of deployment, end-use industry, and geography. Based on deployment, the market has been divided into cloud and on premise. In terms of end-use industry, the microservices architecture market has been segregated into BFSI, government, manufacturing, IT and Telecom, retail, healthcare, energy and utilities, media, and others. As per geography, the market has been divided into North America, Asia Pacific, Europe, Middle East and Africa, and South America.

Some of the major players in the global microservices architecture market include Cognizant, IBM Corporation, Microsoft Corporation, Datawire, Salesforce.com., Infosys Limited, MuleSoft, INC., Software AG, IBM Corporation, and NGINX Inc.

Microservices Architecture Market (SARS-CoV-2, Covid-19 Analysis) By Deployment, By Service, By Vertical - Forecast 2023

Market Scenario:

Microservice architecture is defined as a method for development of application in which the large application is divided into small modular services. Each module assist a specific business goal and uses simple language with well-defined interface to communicate with other services.

Related Link : https://www.marketresearchfuture.com/sample_request/3149

Microservice architecture is increasingly adopted by organization as an inbuilt mechanism for developing enterprise application. Cloud based solution such as software as a service (SaaS) and platform as a service (PaaS) is driving the market.Categroization of connected device such as smartphones, tablets, drones, wearable, smart home appliances and fitness tracker is driving the microservices architecture market.The key trends that is majorly effecting the market include loose coupling, deployment and domain driven design. As microservices operates on simple and smaller services, there is an increase demand for cloud solution and is one of the important factor driving the market.

The advantage of microservices architecture includes improvement in fault isolation system, provide easy platform for new developer and helps to eradicate long term commitment on single technology. The adoption of microservice architecture has assist many big enterprises to begin there transitions as compared to monolithic design structure.

By deployment segment, the microservices architecture market includes cloud based and on-premise. The adoption of cloud based microservices architecture is driving the market. Cloud based microservices architecture provides scalability, cost efficiency and 24x7 availability. To enable organization with healthy microservices, cloud based platform automatically shift the instances to servers or vendor management system when the software or hardware on which they are running fails.

The microservices architecture market is expected to grow at approx. USD 33 Billion by 2023, at 17% of CAGR between 2017 and 2023.

Study Objectives of Microservices Architecture Market:

To provide detailed analysis of the market structure along with forecast of the various segments and sub-segments of the microservices architecture market.

To provide insights about factors affecting the market growth.

To analyze the microservices architecture market based porter’s five force analysis etc.

To provide historical and forecast revenue of the market segments and sub-segments with respect to four main geographies and their countries- North America, Europe, Asia, and Rest of the World (ROW).

To provide country level analysis of the market with respect to the current market size and future prospective.

To provide country level analysis of the market for segment on the basis of deployment, service and vertical.

To provide strategic profiling of key players in the market, comprehensively analyzing their core competencies, and drawing a competitive landscape for the market.

To track and analyze competitive developments such as joint ventures, strategic alliances, mergers and acquisitions, new product developments, and research and developments in the microservices architecture market. 

Regional Analysis:

The regional analysis of microservice architecture market is being studied for region such as Asia Pacific, North America, Europe and Rest of the World. North America region accounts for higher market share. North America region possess highest market share due to major microservice architecture players present in the region. Asia-Pacific is expected to be fastest growing market as large number of organizations are adopting microservices architecture to meet needs of modern application development.

Segments:

Microservices Architecture Market for segment on the basis of by deployment, by type and by Vertical.

Microservices Architecture Market by Deployment:

Cloud based

On-Premise

Microservices Architecture Market by Service:

Inventory Microservice

Accounting Microservice

Shipping Microservice

Store Microservice

Microservices Architecture Market by Vertical:

Healthcare

BFSI

Government

IT & Telecommunication

Manufacturing

Retail

Energy & Utilities

Media & Entertainment

Others

Key Players:

The prominent players in the microservices architecture market are – Cognizant (U.S.), International Business Machines Corporation (U.S), Microsoft Corporation (U.S.), Datawire (U.S.), Infosys Limited (India), Mulesoft (U.S.), Software AG (Germany), Nginx Inc. (U.S.), Salesforce.Com, Inc. (U.S.) among others.

More Information : https://www.marketresearchfuture.com/reports/microservices-architecture-market-3149

About Market Research Future: At Market Research Future (MRFR), we enable our customers to unravel the complexity of various industries through our Cooked Research Reports (CRR), Half-Cooked Research Reports (HCRR), Raw Research Reports (3R), Continuous-Feed Research (CFR), and Market Research and Consulting Services. Contact: Market Research Future +1 646 845 9312 Email: [email protected]

Microservices Development Market 2018 Industry Key Players, Facts, Figures Share, Trend, Applications, Analytical Insights Segmentation and Forecast to 2023

Microservice architecture is defined as a method for development of application in which the large application is divided into small modular services. Each module assist a specific business goal and uses simple language with well-defined interface to communicate with other services.

Microservice Architecture Market is increasingly adopted by organization as an inbuilt mechanism for developing enterprise application. Cloud based solution such as software as a service (SaaS) and platform as a service (PaaS) is driving the market.Categroization of connected device such as smartphones, tablets, drones, wearable, smart home appliances and fitness tracker is driving the microservices architecture market.The key trends that is majorly effecting the market include loose coupling, deployment and domain driven design. As microservices operates on simple and smaller services, there is an increase demand for cloud solution and is one of the important factor driving the market.

The advantage of microservices architecture includes improvement in fault isolation system, provide easy platform for new developer and helps to eradicate long term commitment on single technology. The adoption of microservice architecture has assist many big enterprises to begin there transitions as compared to monolithic design structure.

By deployment segment, the microservices architecture market includes cloud based and on-premise. The adoption of cloud based microservices architecture is driving the market. Cloud based microservices architecture provides scalability, cost efficiency and 24x7 availability. To enable organization with healthy microservices, cloud based platform automatically shift the instances to servers or vendor management system when the software or hardware on which they are running fails.

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The microservices architecture market is expected to grow at approx. USD 33 Billion by 2023, at 17% of CAGR between 2017 and 2023.

Key Players:

The prominent players in the microservices architecture market are – Cognizant (U.S.), International Business Machines Corporation (U.S), Microsoft Corporation (U.S.), Datawire (U.S.), Infosys Limited (India), Mulesoft (U.S.), Software AG (Germany), Nginx Inc. (U.S.), Salesforce.Com, Inc. (U.S.) among others.

Segments:

Microservices Architecture Market for segment on the basis of by deployment, by type and by Vertical.

Microservices Architecture Market by Deployment:

Cloud based

On-Premise

Microservices Architecture Market by Service:

Inventory Microservice

Accounting Microservice

Shipping Microservice

Store Microservice

Microservices Architecture Market by Vertical:

Healthcare

BFSI

Government

IT & Telecommunication

Manufacturing

Retail

Energy & Utilities

Media & Entertainment

Others

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Regional Analysis:

The regional analysis of microservice architecture market is being studied for region such as Asia Pacific, North America, Europe and Rest of the World. North America region accounts for higher market share. North America region possess highest market share due to major microservice architecture players present in the region. Asia-Pacific is expected to be fastest growing market as large number of organizations are adopting microservices architecture to meet needs of modern application development.

Study Objectives of Microservices Architecture Market:

To provide detailed analysis of the market structure along with forecast of the various segments and sub-segments of the microservices architecture market.

To provide insights about factors affecting the market growth.

To analyze the microservices architecture market based porter’s five force analysis etc.

To provide historical and forecast revenue of the market segments and sub-segments with respect to four main geographies and their countries- North America, Europe, Asia, and Rest of the World (ROW).

To provide country level analysis of the market with respect to the current market size and future prospective.

To provide country level analysis of the market for segment on the basis of deployment, service and vertical.

To provide strategic profiling of key players in the market, comprehensively analyzing their core competencies, and drawing a competitive landscape for the market.

To track and analyze competitive developments such as joint ventures, strategic alliances, mergers and acquisitions, new product developments, and research and developments in the microservices architecture market.  

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Microservices Architecture Market Upcoming Trends, Growth Drivers and Challenges, Forecast to 2025 (SARS-CoV-2, Covid-19 Analysis)

Microservices Architecture Market 

A new market study, titled “Microservices Architecture Market ” has been featured on Market Research Future.

North America region is the dominating player in the microservices architecture market owing to presence of major players in the region. Cloud solution such as software as service (SaaS) and platform as a service (PaaS) contributes largest market segment in the region. US market contributes highest revenue in the North America region. Most of the companies in the North America region has adopted microservices architecture technology in e-commerce, financial and travel services. The experts from the region emphasis on strong microservices architecture as compare to monolithic pattern. Its impact on e-commerce industry has been tremendous and has the leverage the business of major e-commerce companies such as Amazon. It enables financial sector by providing easy extensibility and flexibility of components. Reducing risk and compute cost by transferring workloads to cost effective run times and boosting development cycles and swiftness. 

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Microservices Architecture Market Segmentation

The segmentation of the microservices architecture on the basis of application include retail, BFSI, healthcare, government, manufacturing and media. Micoservices architecture technology enable retailers by providing ownership, it allow users to develop and deploy new functionalities within a specified domain without depending on other development teams. It enable users with fault isolation technique, if one service failed, the entire application will operate until the fail service is recovered and recovering a fail service is not that complex, it has its own independent and deployment pipeline.

The prominent players in the Microservices Architecture Market are- Cognizant (U.S.), International Business Machines Corporation (U.S), Microsoft Corporation (U.S.), Datawire (U.S.), Infosys Limited (India), Mulesoft (U.S.), Software AG (Germany), Nginx Inc. (U.S.), Salesforce.Com, Inc. (U.S.) among others.

Market Research Analysis:

High utilization of microservices architecture technology in retail, e-commerce and cloud based application is driving the market in North America region. In Europe region, the microservices architecture market is rising due to major application of it in IT and telecommunication, retail, BFSI and healthcare. Cloud based solution is driving the market in the region. Proliferation of connected device such as smartphones, tablets, laptops and drones is driving the market in the region.

Industry/ Innovation/ Related News: 

February 13, 2018 – Accenture, a techno giant announced that it has joined AT&T‘s multi-year Microservices Supplier Program. The partnership is expected to help the company to migrate legacy operations to models using DevOps and microservices. As per the deal, with consulting expertise of Accenture, the duo companies will work towards the development of microservices that business will use to get AT&T products and services including security and fiber services.

January 30, 2018 – Cisco Systems Inc. (US) announced that company’s video product include a considerable 20 microservices helpful in saving a whole of resources of users.

Worldwide Microservices Architecture Market – Segments

For the convenience of the report and enhanced understanding; the report is segmented in to 4 key dynamics:-  

By Vertical : Comprises IT & Telecommunication, Energy & Utilities, BFSI, Government, Healthcare, Manufacturing, Media& Entertainment, Retail, among other.

By Deployment :  On Cloud & On-Premise.

By Service : Inventory Microservice, Shipping Microservice, and Accounting Microservice among other.

By Regions :  Europe, North America, APAC and Rest of the World.

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