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The place where a laptop is manufactured is a concern of most of the people before buying a laptop and that is because such detail gives an idea about the quality of the laptop. Laptops manufacturers are always on a look for a place where production is easy, lower taxes, material supply is fast and production cost is minimal.

Long ago Microsoft pulled out its production plants from the United States of America and shifted to China, but due to the pandemic Microsoft is trying to shift its production plants to Southeast Asia. If you are looking for details where Microsoft manufactures its surface laptops, then read this guide.

What is the origin of Microsoft Surface laptops?

As from the name, the surface laptops are made by Microsoft which was founded in 1975 By Bill Gates and Paul Allen in New Mexico. Later they shifted to Washington state in 1979, the company initially created a Windows operating system for computers named as MS-DOS which had no GUI. The company started to grow when they created an operating system with GUI in 1985 and their net worth increased to 61 million dollars. Later Microsoft introduced its own web browser named “Internet Explorer” at the time when internet usage started to increase. This is how Microsoft continued to grow and now they make a variety of electronic devices as well, from phones to laptops.

Microsoft in 2017 introduced its surface laptops having a touchscreen and a fully attached keyboard as they were the laptop version of the Surface Book.

Where are Microsoft Surface laptops manufactured?

Microsoft has its headquarters in Redmond, a city of Washington state, but they have shifted their factory to China in 2017 from Wilsonville a city in Oregon state of USA. Moreover, they introduced their surface laptops in 2017 whose production started in this new factory, however due to the coronavirus pandemic Microsoft is trying to shift their factories to the southeast Asian region.

There might be multiple reasons for shifting the production plants as it affects the supply line cost,production cost, and a bunch of other stuff. However, due to shifting of production plants of Microsoft there is a perception that the quality might go downhill for their products but up till now all their products are reliable and have a good quality.


The region of manufacture of a laptop somewhat influences the cost of it and also is an important question for the buyer as well. This is because every country has a different set of rules when it comes to taxes and supply of different materials required for manufacturing. Moreover, the quality of the same product might differ on the basis of manufacturing region.

Microsoft shifted its plant from the USA to China because the taxes there are low as well as 90% of essential materials used to make different chips came from China so that will lower the production cost. Microsoft is manufacturing their surface laptops in China , however the quality of their laptops is still good, in the future they are planning to shift their plants to the Southeast Asian region due to the recent pandemic.

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This post originally appeared on the FINOS blog. You can also listen to the latest FINOS podcast with Minesh Patel, Chief Technology Officer at REGnosys, discussing his upcoming talk at the FINOS Open Source in Finance Forum (OSFF) on July 13th in London about “Breaking new ground in RegTech through open source TechSprint innovation”.

In the first quarter of 2022, a multi-organisation, multi-location team of developers planned, scheduled and delivered an ambitious three day “RegTech” collaboration challenge.

The event, dubbed a “TechSprint”, looked to demonstrate how financial institutions could comply with trade reporting rules for the upcoming US CFTC requirements using entirely open-source components.

Why It’s Important

Every year, the financial industry spends billions trying to comply with often complex data reporting requirements. For every reporting regime and jurisdiction, firms must typically sift through hundreds of pages of judicial text, which they must then manually interpret and code in their IT systems.

As a result, while many financial institutions share the same reporting obligations, they usually implement their logic in slightly different ways due to fragmented technology approaches, adding to risks and costs.

The field is ripe for a shake-up by “RegTech”, i.e. the application of technology to address regulatory challenges. In particular, the ability to build and store the reporting logic in an open-source and technology-agnostic way, and to run it based on open-source components too, could reap huge efficiency benefits for the industry.

Current Landscape

This RegTech space is one that FINOS has been actively investing in. In 2020, FINOS approved the contribution of the Regulation Innovation SIG, a Special Interest Group dedicated to the applications of open source to regulatory problems. Morphir, an open-source project contributed by Morgan Stanley, is positioned as a key component of that Reg SIG. Morphir allows to represent, store, share and process business logic in an implementation-agnostic way, including the types of rules and calculations often found in regulations.

The industry is also getting better organised to tackle pressing regulatory challenges more collaboratively. Under the auspices of the industry’s existing trade associations, the Digital Regulatory Reporting (DRR) programme is a mutualized, industry-wide initiative addressing the total trade reporting requirements. Those reporting regimes are being updated across the G20 and DRR starts with the US CFTC revised swap data reporting rules that go live this year. DRR involves industry participants working together to deliver an open-source, machine-executable expression of the reporting rules.

These two initiatives, Morphir and DRR, looked like a perfect match. A like-minded team of developers sitting across organisations decided to undertake the challenge of integrating them, thus demonstrating that reporting rules can be developed, executed and validated using entirely open-source components – all under three days!



In DRR, the rule logic is expressed in a Domain-Specific Language called the Rosetta DSL and then translated into executable code through an automated “code generation” process. The reporting rules’ inputs are modelled according to the Common Domain Model (CDM), an initiative initially championed by the International Swaps and Derivatives Association (ISDA), now joined by other trade associations, and involving many industry participants including buy- and sell-side firms.

The Rosetta DSL and its associated code generators, currently being proposed for contribution to FINOS, are open-source projects developed by technology firm REGnosys, which provides the software platform for the DRR and CDM programme.

The main objective of the TechSprint was to develop a Rosetta-to-Morphir code generator. This would demonstrate that Morphir can be used as a target for storing and executing the body of rules in DRR and that it produces results that are consistent with Rosetta. In addition, the TechSprint looked to provide a formal verification mechanism for the DRR code using Bosque, another open-source project developed by Microsoft that is already integrated with Morphir.


The first trade reporting regime available in DRR is the CFTC Rewrite, which is rolling out in the US this year. The TechSprint focused on handling a couple of CFTC reportable fields to demonstrate the Rosetta-Morphir-Bosque integration.


Building on our proven approach seen over the last two years with the Legend pilot and the Legend hosted instance, the event was run as a “task-force” where teams sitting across organisations’ boundaries collaborated and shared knowledge on their respective open-source projects, all under FINOS’s sponsorship.

In total, seven representatives from three teams at Morgan Stanley, Microsoft and REGnosys have worked together for three days across three separate locations in the UK, Ghana and the US.

Given the time zone differences, the TechSprint was held virtually, starting with the UK/Ghana shift and closing with the NY shift. The teams were mostly self-organised, with regular checkpoints throughout the day.

Substantial Results at Record Speed

In just three days, a Rosetta-to-Morphir code generator has been developed successfully. Whilst not complete, it has been shown to handle increasingly complex logic from Rosetta. REGnosys is integrating this deliverable back into Rosetta’s main open-source code-base.

A couple of in-scope reportable fields were successfully tested by running the Morphir-Scala engine on a sample trade population and displayed in a UI, matching their expected results in Rosetta. The Morphir UI showed how the reporting logic stored in Morphir could be represented graphically.

Finally, the Bosque validation layer was successfully applied to the code generated from Rosetta, opening the way to a formal verification method for the rules developed in DRR.

Take-Aways and Next Steps

One of the most interesting take-aways from this TechSprint event was its task-force format, which allowed the teams to perform at their level best. This format could serve as a template for future “open innovation” initiatives engaging the FINOS community.

The key ingredients of success were:

  • A specific and tangible deliverable
  • Collaboration, not competition, on that shared objective
  • Diversity of participants, all goal-oriented
  • Clear responsibilities of the different team members
  • Careful preparation and planning
  • A “safe space” to contribute in open-source

As a next step, the TechSprint team will be demonstrating the result of their work at the upcoming Open Source in Finance Forum in London (July 13th). Those results will be encapsulated into a video that will be made publicly available.

The Morphir-to-Rosetta code generator delivered during the TechSprint is also included in a formal open-source contribution to FINOS. This will create a first bridge between the on-going DRR industry programme and the wider FINOS community, allowing to connect it to similar initiatives taking place under the Reg SIG.

Given interest and community engagement in that group, further open innovation events involving multiple firms could be run along a similar format.

The potential benefits of open collaboration in the regulatory space are massive. This TechSprint demonstrates how new ground can be broken when barriers tumble down.


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