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Have you heard of distributed cloud computing and wondered whether it could help your business? This article describes distributed cloud computing by detailing its advantages and disadvantages.
Distributed cloud computing occurs when a cloud provider distributes cloud services to various geographic locations. The public cloud provider then operates and updates these services. Garner that by 2024 most cloud service platforms will provide at least some distributed cloud computing services that execute at the point of need.
With distributed cloud computing, companies can meet specific application performance and responsiveness requirements, as well as regulatory and governance compliance mandates. Companies can also ensure other conditions, such as that cloud infrastructure be located outside the typical availability zones of cloud providers.
In distributed cloud computing, all the computing power of a cloud provider is distributed wherever a customer needs it: on-premises in data centers or private clouds or off-premises in public cloud data centers.
Distributed cloud computing extends the provider's centralized cloud with geographically distributed micro-clouds. The provider controls all distributed infrastructure centrally, including operations, updates, governance, security, and reliability. Everything is accessible as a single cloud and managed from a single control plane.
Distributed cloud computing offers extra features as well. Users can request that certain data remain within specific regions or that they meet a specific latency or throughput target. These features are included in service level agreements (SLA) between the user and the cloud provider.
Major cloud providers integrate their technology into dispersed cloud data centers to ensure they appropriately place data, computing, and storage to transparently meet SLAs.
Distributed cloud computing can boost performance because it eliminates latency issues and reduces the risk of global network outages and control plane issues. Its advantages include:
It is important to keep in mind certain disadvantages, though, including security and bandwidth issues.
An extension of distributed cloud computing is edge computing. With edge computing, data is processed near the place where it is generated. The edge storage and computing resources connect to larger cloud data centers for analysis and bulk storage.
The future requirements for edge computing focus on reducing round-trip response times, lowering the power consumption of edge applications, and ensuring there is enough processing power to handle tasks. Next-generation chips will meet these needs by reducing latency and power consumption and including artificial intelligence.
To help with next-generation chip design, Synopsys' cloud-based electronic design automation (EDA) solutions enable you to scale in a safe environment, boosting productivity and lowering turnaround time and costs. Our solutions are endorsed by semiconductor foundries to work with their libraries and process design kits.
Synopsys is the industry¡¯s largest provider of electronic design automation (EDA) technology used in the design and verification of semiconductor devices, or chips. With Synopsys Cloud, we¡¯re taking EDA to new heights, combining the availability of advanced compute and storage infrastructure with unlimited access to EDA software licenses on-demand so you can focus on what you do best ¨C designing chips, faster. Delivering cloud-native EDA tools and pre-optimized hardware platforms, an extremely flexible business model, and a modern customer experience, Synopsys has reimagined the future of chip design on the cloud, without disrupting proven workflows.
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Venkata Ravella is vice president of Information Technology at Synopsys, where he leads a world-class IT infrastructure team that has built large-scale engineering and business infrastructure on private and public clouds. Over the last 25+ years, he has held various roles in IT, with the majority of his time focused on engineering environment and infrastructure. He has in-depth experience building high-performing engineering environments, both on-prem and in-cloud, with an emphasis on reliability, scalability, and security at their core.