Pola arsitektur jaringan hybrid dan multicloud yang aman
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Last reviewed 2024-10-29 UTC
Dokumen ini adalah dokumen ketiga dari tiga dokumen dalam satu set. Dokumen ini membahas pola arsitektur jaringan hybrid dan multicloud. Bagian ini membahas beberapa pola arsitektur jaringan aman umum yang dapat Anda gunakan untuk arsitektur hybrid dan multicloud. Artikel ini menjelaskan skenario yang paling cocok untuk pola jaringan ini, dan memberikan praktik terbaik untuk menerapkannya dengan Google Cloud.
Kumpulan dokumen untuk pola arsitektur hybrid dan multicloud terdiri dari bagian-bagian berikut:
Pola arsitektur jaringan hybrid dan multicloud yang aman:
membahas pola arsitektur jaringan hybrid dan multicloud dari
perspektif jaringan (dokumen ini).
Menghubungkan lingkungan komputasi pribadi secara aman dan andal sangat penting untuk keberhasilan arsitektur hybrid dan multicloud. Google Cloud
Pola arsitektur jaringan cloud dan konektivitas jaringan hybrid yang Anda pilih untuk penyiapan hybrid dan multicloud harus memenuhi persyaratan unik dari workload perusahaan Anda. Hal ini juga harus sesuai dengan pola arsitektur yang ingin Anda terapkan. Meskipun Anda mungkin perlu menyesuaikan setiap desain, ada pola umum yang dapat Anda gunakan sebagai cetak biru.
Pola arsitektur jaringan dalam dokumen ini tidak boleh
dianggap sebagai alternatif untuk
desain zona landing di Google Cloud.
Sebagai gantinya, Anda harus mendesain dan men-deploy pola arsitektur yang Anda pilih sebagai bagian dari desain zona landing keseluruhan, yang mencakup area berikut: Google Cloud
Identitas
Pengelolaan resource
Keamanan
Jaringan
Pemantauan
Aplikasi yang berbeda dapat menggunakan pola arsitektur jaringan yang berbeda,
yang disertakan sebagai bagian dari arsitektur landing zone. Dalam penyiapan multicloud, Anda harus mempertahankan konsistensi desain zona landing di semua lingkungan.
[[["Mudah dipahami","easyToUnderstand","thumb-up"],["Memecahkan masalah saya","solvedMyProblem","thumb-up"],["Lainnya","otherUp","thumb-up"]],[["Sulit dipahami","hardToUnderstand","thumb-down"],["Informasi atau kode contoh salah","incorrectInformationOrSampleCode","thumb-down"],["Informasi/contoh yang saya butuhkan tidak ada","missingTheInformationSamplesINeed","thumb-down"],["Masalah terjemahan","translationIssue","thumb-down"],["Lainnya","otherDown","thumb-down"]],["Terakhir diperbarui pada 2024-10-29 UTC."],[[["\u003cp\u003eThis document focuses on secure networking architecture patterns for hybrid and multicloud environments, specifically as they relate to Google Cloud.\u003c/p\u003e\n"],["\u003cp\u003eIt details common patterns, their ideal use cases, and best practices for implementation within Google Cloud's ecosystem.\u003c/p\u003e\n"],["\u003cp\u003eThe patterns discussed are designed to securely and reliably connect private computing environments to Google Cloud.\u003c/p\u003e\n"],["\u003cp\u003eThese networking patterns should be integrated into an overarching Google Cloud landing zone design, which includes aspects like identities, security, resource management, networking, and monitoring.\u003c/p\u003e\n"],["\u003cp\u003eThe document is the third in a series that explores hybrid and multicloud architectures, focusing on the networking perspective, and it provides links to other related content within the series.\u003c/p\u003e\n"]]],[],null,["# Hybrid and multicloud secure networking architecture patterns\n\nThis document is the third of three documents in a set. It discusses hybrid\nand multicloud networking architecture patterns. This part explores several\ncommon secure network architecture patterns that you can use for hybrid and\nmulticloud architectures. It describes the scenarios that these networking\npatterns are best suited for, and provides best practices for implementing them\nwith Google Cloud.\n\nThe document set for hybrid and multicloud architecture patterns consists of\nthese parts:\n\n- [Build hybrid and multicloud architectures](/architecture/hybrid-multicloud-patterns): discusses planning a strategy for architecting a hybrid and multicloud setup with Google Cloud.\n- [Hybrid and multicloud architecture patterns](/architecture/hybrid-multicloud-patterns-and-practices): discusses common architecture patterns to adopt as part of a hybrid and multicloud strategy.\n- Hybrid and multicloud secure networking architecture patterns: discusses hybrid and multicloud networking architecture patterns from a networking perspective (this document).\n\nConnecting private computing environments to Google Cloud securely and\nreliably is essential for any successful hybrid and multicloud architecture.\nThe hybrid networking connectivity and cloud networking architecture pattern you\nchoose for a hybrid and multicloud setup must meet the unique requirements of\nyour enterprise workloads. It must also suit the architecture patterns you\nintend to apply. Although you might need to tailor each design, there are common patterns you can use as a blueprint.\n\nThe networking architecture patterns in this document shouldn't be\nconsidered alternatives to the\n[landing zone design in Google Cloud](/architecture/landing-zones).\nInstead, you should design and deploy the architecture patterns you\nselect as part of the overall Google Cloud landing zone design, which\nspans the following areas:\n\n- Identities\n- Resource management\n- Security\n- Networking\n- Monitoring\n\nDifferent applications can use different networking architecture patterns,\nwhich are incorporated as part of a landing zone architecture. In a multicloud\nsetup, you should maintain the consistency of the landing zone design across all\nenvironments.\n\nThis series contains the following pages:\n\n- [Design considerations](/architecture/hybrid-multicloud-secure-networking-patterns/design-considerations)\n- [Architecture patterns](/architecture/hybrid-multicloud-secure-networking-patterns/architecture-patterns)\n - [Mirrored pattern](/architecture/hybrid-multicloud-secure-networking-patterns/mirrored-pattern)\n - [Meshed pattern](/architecture/hybrid-multicloud-secure-networking-patterns/meshed-pattern)\n - [Gated patterns](/architecture/hybrid-multicloud-secure-networking-patterns/gated-patterns)\n - [Gated egress](/architecture/hybrid-multicloud-secure-networking-patterns/gated-egress)\n - [Gated ingress](/architecture/hybrid-multicloud-secure-networking-patterns/gated-ingress)\n - [Gated egress and ingress](/architecture/hybrid-multicloud-secure-networking-patterns/gated-egress-ingress)\n - [Handover](/architecture/hybrid-multicloud-secure-networking-patterns/handover-pattern)\n- [General best practices](/architecture/hybrid-multicloud-secure-networking-patterns/general-best-practices)\n\nContributors\n------------\n\nAuthor: [Marwan Al Shawi](https://www.linkedin.com/in/marwanalshawi) \\| Partner Customer Engineer\n\nOther contributors:\n\n- [Saud Albazei](https://www.linkedin.com/in/albazei) \\| Customer Engineer, Application Modernization\n- [Anna Berenberg](https://www.linkedin.com/in/annaberenberg) \\| Engineering Fellow\n- [Marco Ferrari](https://www.linkedin.com/in/ferrarimark) \\| Cloud Solutions Architect\n- [Victor Moreno](https://www.linkedin.com/in/vimoreno) \\| Product Manager, Cloud Networking\n- [Johannes Passing](https://www.linkedin.com/in/johannespassing) \\| Cloud Solutions Architect\n- [Mark Schlagenhauf](https://www.linkedin.com/in/mark-schlagenhauf-63b98) \\| Technical Writer, Networking\n- [Daniel Strebel](https://www.linkedin.com/in/danistrebel) \\| EMEA Solution Lead, Application Modernization\n- [Ammett Williams](https://www.linkedin.com/in/ammett) \\| Developer Relations Engineer\n\n\u003cbr /\u003e"]]
