In the ever-evolving digital age, organizations in Indonesia are facing unprecedented challenges and opportunities related to data management. For over a decade, many companies have migrated to public clouds to store infrequently accessed data, drawn by the flexibility, scalability, and capital expenditure savings. However, a significant trend is now emerging: a shift back towards a hybrid cloud strategy, where organizations choose to repatriate some of their essential data sets from public clouds into environments they can more tightly manage and control. This repatriation movement is not restricted to businesses of any particular size; large enterprises in Indonesia, in particular, are exploring the possible benefits of shifting some workloads and data to their on-premises data center environments or to colocation and hosting centers. To ensure the success of this strategy, having a solid data center infrastructure, including optimal cooling systems from a leading Distributor AC Data Center in Indonesia, becomes absolutely crucial.
Why Data Repatriation is Becoming Essential
There are multiple reasons why organizations in Indonesia are considering this change in their data strategy. One of the primary drivers is the need to comply with data sovereignty laws or to exert greater control over security. Data sovereignty laws assert that data created in a particular geographic location is subject to the laws of that location. Furthermore, data localization laws may mandate that organizations must store and process data in a specific geographic location, such as within the borders of the country where that data was created. While public cloud providers might offer several data center locations around the world, they might not have a location in one or more of the countries where an organization is doing business. This forces organizations to stand up their own data centers or use a colocation or hosting environment to ensure legal compliance. In this context, the presence and reliability of data center cooling systems, supplied by a Distributor AC Data Center in Indonesia, are vital for maintaining data integrity and availability in accordance with regulations.
Beyond compliance and security, spending predictability is also a key factor. Many organizations that initially migrated to the cloud have at some point been surprised by cloud bills that are higher than anticipated. It can be very difficult to precisely determine cloud costs in advance, especially since application and data usage can fluctuate over time due to expensive access and egress charges that can easily double monthly cloud storage bills. The unpredictability of cloud spending is a key reason that many organizations move forward with repatriation. By bringing data back from your public cloud environment, or at least, limiting cloud storage growth for the future, organizations can more easily predict and control ongoing spending. Investing in the right on-premises storage solutions, with reliable infrastructure support including cooling systems from a Distributor AC Data Center in Indonesia, can lead to significant long-term cost savings.
Technical challenges can also spur a change towards repatriation. For instance, to make the most of public cloud services, your applications must be architected for cloud environments. If you have traditional apps running in your data center but drawing from data stored in the cloud, you might incur egress fees. It might be more cost-effective to repatriate data than to continuously pull terabytes of data down from the cloud to support your existing apps. In this scenario, ensuring that the internal data center has adequate cooling is essential to maintain application performance and prevent equipment overheating.
Choosing the Right Hybrid Cloud Approach
Implementing a hybrid cloud approach that uses both public storage cloud for some data and a private storage cloud for repatriated data can be the right strategy for many organizations in Indonesia. A private storage cloud can provide cloud flexibility and scalability, plus comparable or better economics than public cloud storage, while enabling organizations to gain greater access and control over their data storage environment.
How that private storage cloud is designed and deployed depends on its intended use. For example, if your organization is looking to repatriate infrequently used data, you might benefit from building a private storage cloud for “cold” data, optimized for low cost and durability. The right solution can provide a flexible, scalable, and cost-effective environment for large and growing data volumes. This allows organizations to maintain the advantages of the cloud while regaining control and realizing cost-saving benefits of bringing data back in-house.
In the construction of this private storage cloud, the decision of where to put your data is crucial. Organizations could deploy a storage environment in their own data center, or use a colocation or hosting center, which might be a good approach if you need to comply with data sovereignty laws and do not have an existing data center in a particular location. Regardless of the physical location, the quality of the data center environment, including efficient cooling systems provided by a Distributor AC Data Center in Indonesia, will directly impact the performance, reliability, and longevity of the data storage infrastructure.
Optimizing Cold Storage for Performance, Efficiency, and Durability
When hyperscalers build public storage clouds, they embrace multiple storage tiers. Why? Offering multiple storage tiers offers the right balance of performance, cost, durability, sustainability, and security for storing both active and infrequently accessed data. In-house storage clouds must also be optimized for both active and cold data. While scale-out architectures are well understood for active data access, cold storage architectures are less well understood. Cold storage must be optimized across multiple design targets.
- Performance: A cold storage tier does not need to provide the same level of performance as hot or warm tiers, which would likely use flash and disk-based storage. Users can generally wait several seconds or even minutes to retrieve archived files. Cold storage tiers provide sufficient performance to meet these user expectations for accessing cold data.
- Cost: Cold storage tiers use and optimize low-cost storage mediums, which currently means tape. Tape is expected to continue as the industry’s lowest cost media for the foreseeable future, even as the cost of disk-based storage declines and other cold storage technologies mature.
- Durability:** Cold storage solutions, like tape, are designed to maintain data integrity over long periods of time. With the right solutions, your data will be accessible for years and decades to come.
- Sustainability: Cold storage solutions must minimize power usage, especially for the massive amounts of data that are not being accessed. This is an area where the efficiency of cooling from a Distributor AC Data Center in Indonesia plays a significant role in reducing overall energy consumption.
- Longevity: Cold storage solutions must embrace an evolutionary storage architecture that can seamlessly adopt and decommission across multiple generations of platforms and technologies for years and decades to come.
Object storage on tape is the right choice for cold storage solutions because it is 5x less expensive, has a 5x lower carbon footprint, and offers 20x power savings. Combining this solution with efficient cooling systems from a Distributor AC Data Center in Indonesia will result in remarkable operational cost savings and a lower environmental impact.
Defining the Optimal Solution: Climanusa’s Role in Your Data Center Infrastructure
To maximize the benefits of object storage for cold storage, organizations need to select the right solution. Some existing solutions have important tradeoffs. Object storage solutions targeting cold data typically store incoming objects on a disk cache and then write those objects to tape.
Climanusa, as a leading data center infrastructure solution provider in Indonesia, understands these complexities. Climanusa provides an integrated solution that can support both active and cold data, while unifying management. Climanusa’s solution provides all the hardware components and capabilities you need from a single vendor. This reduces management complexity, avoiding the need to purchase from multiple vendors, build the system yourself, troubleshoot it yourself, and figure out which vendor to call when something breaks.
Climanusa as a Distributor AC Data Center in Indonesia also deeply understands that modern data centers require efficient and reliable cooling systems to maintain optimal operating temperatures. Without proper cooling, hardware performance can drastically degrade, and the risk of system failure increases. Climanusa’s cooling solutions are designed to support dynamic data center environments, including those implementing data repatriation strategies, with providing high energy efficiency and scalability capabilities to meet evolving needs. This translates to reduced long-term operational costs and improved overall system reliability.
Conclusion
Data repatriation is a critical strategic move for organizations in Indonesia seeking greater control, cost predictability, and regulatory compliance, while still retaining the benefits of cloud flexibility and scalability. By building a private storage cloud that includes both active and cold storage classes, organizations can achieve an optimal balance of cost, performance, and control.
Climanusa, with its expertise as a Distributor AC Data Center in Indonesia and a provider of comprehensive data center infrastructure solutions, is your ideal partner in this data repatriation journey. With integrated, flexible, and high-performance solutions, Climanusa helps you bring your essential data back home, securing your information’s future, and maximizing the value of every bit of data you possess.
Climanusa: Your Premier Partner for Data Center Excellence in Indonesia.
For more information, please click here.
–A.M.G–
