![]() And, as with other firms that offer open-source products, HashiCorp makes money by charging for the additional operational and collaboration features that enterprises need.īut how does HashiCorp ensure continual support for the top public clouds, considering that they are constantly evolving and updating their features? Grant Orchard, the APJ Field CTO at HashiCorp attributed this compatibility to a joint engineering effort with the cloud providers to minimize any gaps between feature delivery and their availability within Terraform.Īnd though the various cloud providers have their own infrastructure as code offerings, Orchard says the advantage of going with HashiCorp is that it works across clouds, giving enterprises a single, scalable solution. Though HashiCorp is hardly the first on the scene, it appeared to have found success as one of the most popular open-source tools for infrastructure automation.Ĭrucially, its plugin architecture has attracted a massive network of third-party providers that actively build compatible products to significantly broaden its appeal. This ability to manage and provision infrastructure with code instead of manual processes is known as infrastructure as code. One of its linchpin products is Terraform, a well-established solution that lets businesses build and modify both cloud and on-premises resources using code. The San Francisco-based software company offers a suite of open-source tools designed to support the development and deployment of large-scale cloud computing infrastructure. This is where HashiCorp comes into the picture. Fully understanding and leveraging the capabilities of one cloud platform is a demanding enough undertaking all by itself, and is even more challenging when additional cloud platforms are thrown into the mix.Īnd building cloud-native applications or repurposing existing services to function flawlessly on top of disparate clouds calls not just for cloud know-how but also requires a thorough understanding of their many quirks and differing architectures. In Southeast Asia in particular, one can now find multiple cloud regions from the top cloud players such as Microsoft Azure, Amazon Web Services (AWS), and Google Cloud, as well as those from Chinese cloud firms such as Alibaba Cloud, Huawei Cloud, and Tencent Cloud.īut for all the enthusiasm for multi-cloud deployments, what is often glossed over is the inherent complexity of a multi-cloud deployment. ![]() For instance, the Singaporean government agency GovTech years ago shared how it is developing a hybrid, multi-cloud architecture.īusinesses in the region are spoilt for choice in terms of rolling out multi-cloud deployments on the public cloud. Multi-cloud deployments aren’t just something for nimble startups or technology-savvy enterprises either, but also for the public sector. The appeal of this approach lies in how it gives organizations the ability to shift workloads across cloud platforms for heightened resilience, while ensuring that they are not held beholden to any one cloud platform. Within the cloud, businesses are increasingly eyeing hybrid, multi-cloud deployments. Indeed, data center growth is expected to accelerate in the Asia Pacific (APAC), driven by a new wave of hyperscale data centers designed to power the facilities of cloud giants and meet fast-growing demand in the region. ![]() © TAMPA BAY BUCCANEERS.While it was not the earliest to hop on the cloud computing bandwagon, Asia is arguably one of the strongest adopters of the cloud today.
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