Google has signed the first-ever corporate agreement to source electricity from small modular reactors (SMRs) to power its AI operations. Partnering with Kairos Power, the tech giant plans to bring its first SMR online by 2030, with further installations expected by 2035. The innovative approach aims to ensure a reliable, around-the-clock supply of clean energy, addressing the growing energy demands triggered by the expansion of AI technology.
The agreement outlines Google’s commitment to purchasing 500 megawatts of power from six to seven SMRs, though details regarding the plants’ financial terms and locations remain undisclosed. The power output from these SMRs is significantly smaller than traditional nuclear reactors, but Google’s strategic investment signals a push toward long-term sustainability.
The tech industry’s focus on nuclear energy has gained momentum this year, with companies like Amazon and Microsoft entering similar agreements. According to Goldman Sachs, the demand for data centres in the US is expected to triple between 2023 and 2030. The surge in energy consumption has prompted technology companies to explore alternative energy sources, including nuclear, wind, and solar, to meet future needs.
Kairos Power must navigate regulatory hurdles, including securing permits from the US Nuclear Regulatory Commission (NRC) and local agencies, which could take several years. However, the company achieved a key milestone last year by obtaining a construction permit to build a demonstration reactor in Tennessee, signalling progress toward deploying SMRs.
Despite the enthusiasm for SMRs, critics point to potential challenges, including high costs and the production of long-lasting nuclear waste. However, Google’s decision to commit to an order book framework with Kairos rather than purchasing individual reactors represents a strategic investment to accelerate the development of SMRs while ensuring cost-effectiveness and timely project delivery.
USAID announced a groundbreaking $5 million funding initiative aimed at fostering a new public-private partnership involving the United States Agency for International Development (USAID), the Government of Armenia, and Amazon Web Services (AWS). That collaboration seeks to leverage the strengths of the private sector to address global challenges, particularly in the realm of digital transformation.
Moreover, the partnership is specifically designed to enhance the resilience of Armenian institutions, thereby ensuring they are better equipped to serve citizens and maintain continuity during disruptions. Furthermore, this initiative aligns with Armenia’s recently adopted Cloud First Policy (CFP), which focuses on innovating public services through cloud technology and represents a significant step toward modernising the country’s technological infrastructure. Through strategic consultations with AWS leadership, the Armenian government aims to improve data safety, cost-efficiency, and overall resilience in its service delivery.
The implementation of the Continuity of Government IT (CGIT) solution on AWS will be crucial for protecting Armenia’s digital assets during disruptions. Specifically, this cloud-based solution will help the government align its continuity goals with technology paths that support its digital transformation objectives.
Additionally, this collaboration has the potential to create a replicable public-private model that other regions can adopt. By amplifying this approach, governments can not only enhance cyber resilience but also leverage cloud computing to accelerate sustainable development goals, ultimately contributing to a more robust global technological landscape.
Numeric, an AI-driven accounting software company co-founded by Parker Gilbert in 2020, is gaining traction for automating the tedious and error-prone process of month-end and quarter-end financial closings. Frustrated with manual accounting work at a startup, Gilbert developed the software to streamline and accelerate the process by using AI to analyse and reconcile data from various accounting systems. Companies like Brex, OpenAI, and Plaid now rely on Numeric for their accounting needs.
In the past year, Numeric’s revenue has grown fourfold, reaching single-digit millions. This growth has attracted significant investor attention, leading to a $28 million Series A funding round led by Menlo Ventures, just five months after raising $10 million in seed funding. The round also saw participation from new investors like IVP and Socii, alongside previous backers such as Founders Fund and Long Journey.
Numeric’s software uses AI to perform flux analysis, identifying changes in financial line items and explaining discrepancies, which saves accountants time and improves accuracy. Although AI currently supports analysis and commentary rather than final calculations, Gilbert expects future versions of the software to expand these capabilities. Menlo Ventures’ Croom Beatty, who led the Series A round, highlighted Numeric’s ability to address complex accounting workflows, setting it apart in a market dominated by established players like BlackLine and FloQast.
A group of major tech companies, including Microsoft, Alphabet, Meta, and Amazon, has proposed new terms for how data centres in Ohio should pay for their energy needs. This comes in response to a previous proposal by AEP Ohio that required pre-payments from data centres and cryptocurrency miners due to their large electricity demands.
Ohio has experienced a surge in power requests from data centres as tech companies expand their infrastructure for technologies like generative AI. AEP Ohio paused new data centre contracts, citing the overwhelming number of requests. The state’s power industry now faces regulatory battles that may shape how future energy demands are managed across the US.
Several companies, including power suppliers like Constellation Energy and One Energy Enterprises, initially opposed AEP’s proposal. They have now offered an alternative, suggesting a broader application of AEP’s rules to include industries requiring over 50 megawatts of power at one site. This proposal aims to modify when new customers would have to cover costs like transmission upgrades.
Any settlement between Big Tech and the power companies would need approval from the Public Utilities Commission of Ohio, which will play a crucial role in the outcome of this energy dispute.
Siemens is relying on its digital platform, Xcelerator, to drive future growth, especially in its factory automation business, which has faced slowing demand in China and Europe. Despite lowering its full-year sales forecast, Siemens reported an 82% jump in industrial software sales for the three months ending in June, mainly due to Xcelerator’s offerings, according to Peter Koerte, the company’s chief technology and strategy officer.
Xcelerator, launched in 2022, is a cloud-based platform that delivers hardware and digital services to a global customer base, boasting over a million monthly users. Siemens’ divisions, including mobility, smart infrastructure, and digital industries, leverage its offerings to enhance its operations. The platform collaborates with 400 partner companies, providing more than 900 solutions worldwide. However, Siemens has not disclosed specific financial figures for Xcelerator.
Xcelerator has achieved significant success in key markets, including China, India, Germany, and the US. Its advanced capabilities have enabled Siemens to secure major contracts, such as an order for 90 regional trains from Deutsche Bahn in August. By analysing data from these trains, Xcelerator enhances maintenance practices, boosts energy efficiency, and improves punctuality, showcasing its effectiveness in integrating digital and physical services to address customer needs.
Dutch economy minister Dirk Beljaarts revealed a plan to form a ‘coalition of the willing’ within the EU to strengthen the bloc’s computer chip industry and compete globally with the US and China. At a G7 industry ministers’ meeting in Rome, he stressed the importance of EU nations working together to set up production, assembly, and packaging facilities. While the Netherlands is home to leading chip tool maker ASML, Beljaarts emphasised that other EU countries must also build their semiconductor industries.
Beljaarts expressed the Netherlands’ readiness to lead this initiative, collaborating with Italian Industry Minister Adolfo Urso to bring the plans to life. Although the Netherlands is not a G7 member, its influence in the tech sector, as the world’s 18th largest economy, secured its invitation to the meeting. The EU’s chip strategy has recently faced challenges, particularly after the departure of Thierry Breton, the former EU Commission industry chief and architect of the EU Chips Act. The act, valued at €43 billion, aims to boost Europe’s share of the global chip market to 20% by 2030.
In a separate meeting, Beljaarts spoke with US Secretary of Commerce Gina Raimondo, discussing potential areas of cooperation. This discussion took place amid anticipated US export restrictions on advanced semiconductor equipment to China, which could impact ASML. However, Beljaarts clarified that the talks focused on collaboration rather than export limitations.
Industry ministers from the G7 advanced democracies have agreed that non-market practices in the semiconductor industry pose an urgent challenge that requires collective action. This consensus was announced by the Italian presidency and is a response to growing concerns about China’s influence in the sector. During the G7 summit in June, leaders had previously pledged to address what they called unfair business practices by China, particularly as the country aggressively advances its semiconductor manufacturing capabilities.
The majority of global semiconductor production takes place in South Korea and Taiwan, with Taiwan’s closeness to mainland China heightening concerns about potential military conflicts that could disrupt global supply chains. Due to Taiwan’s leadership in advanced chip manufacturing, major economies such as the US and European nations have enacted legislation to enhance domestic semiconductor production. Initiatives like the US CHIPS Act and corresponding European measures have allocated substantial funding to incentivise companies to set up chip production facilities within their countries.
Alongside semiconductor issues, the newly established G7 task force will also focus on undersea cable connectivity, which has grown increasingly critical. Recent outages in major undersea cables have underscored the necessity for a stable and secure global internet infrastructure. This expansion of the G7’s agenda aims to address broader technological stability, moving beyond semiconductor concerns to encompass essential aspects of digital connectivity.
Stripe has announced a new collaboration with Nvidia to enhance its AI offerings and improve fraud detection. The deeper partnership will see Stripe integrating Nvidia’s advanced AI technology, enabling global developers and enterprises to access GPUs and AI software through Stripe’s payment platform.
This collaboration highlights Stripe’s focus on leveraging Nvidia’s capabilities to support AI products. Stripe has introduced new features, including usage-based billing and enhanced global payment methods, to accommodate AI products that are international from the start.
Patrick Collison, Stripe’s co-founder, praised Nvidia’s role in advancing AI technology, while Nvidia’s CEO, Jensen Huang, recognised Stripe’s leadership in enabling businesses to use AI to fuel growth. The partnership comes as Stripe continues to integrate AI into services like Stripe Radar, which recently received AI-driven upgrades to boost fraud prevention.
Stripe, valued at $70bn as of July, has consistently relied on Nvidia’s computing platform to train its machine learning models. This expanded partnership is expected to drive further growth and innovation in AI technology.
The European Commission has announced a significant investment in the continent’s digital infrastructure through its second work program under the Connecting Europe Facility (CEF) Digital, allocating €865 million in funding from 2024 to 2027. That initiative will target large-scale projects promoting the rollout of 5G and gigabit networks in key sectors such as healthcare, transport, logistics, and manufacturing.
By focusing on these industries, the EU aims to drive the integration of advanced technologies to meet increasing digital demands. The program also seeks to expand Europe’s digital backbone by strengthening quantum communication networks and laying new submarine cables to enhance connectivity with third countries.
Additionally, it will develop digital platforms for transport and energy, optimising ICT energy use while minimising environmental impact and ensuring seamless integration with existing European data, cloud, and connectivity infrastructures.
That initiative supports the EU’s ambitious 2030 Digital Decade goals, which aim to provide all citizens and businesses access to 5G and gigabit-speed internet. Margrethe Vestager, Executive Vice-President for Europe Fit for the Digital Age, emphasised the importance of enhancing connectivity to foster innovation and connect more citizens and businesses.
With a total budget of €2 billion until 2027, the broader CEF Digital program has already funded 65 projects, including 5G Smart Communities and cross-border 5G corridors. It plans to launch a fourth call for project proposals to accelerate digital transformation further.
On September 21, Prime Minister Pham Minh Chinh signed Decision No. 1018/QD-TTg, establishing Vietnam‘s strategy and vision for developing its semiconductor industry. This strategic plan outlines both short-term objectives until 2030 and long-term projections extending to 2050, emphasising five key tasks – developing specialised chips, promoting the electronics industry, enhancing human resources and attracting talent, drawing investment into the semiconductor sector, and implementing additional relevant measures.
The strategy includes a three-phase roadmap. In Phase 1 (2024-2030), Vietnam aims to leverage its geographical advantages and existing semiconductor talent to attract foreign direct investment (FDI). The goals are to establish at least 100 design companies, one small semiconductor chip manufacturing plant, and 10 packaging and testing facilities, with the semiconductor industry projected to generate over USD 25 billion in revenue annually. The workforce is expected to exceed 50,000 engineers and university graduates.
During Phase 2 (2030-2040), Vietnam intends to strengthen its position as a global center for semiconductors, targeting 200 design companies, two chip manufacturing plants, and 15 packaging and testing facilities. The expected annual revenue for the semiconductor industry is projected to surpass USD 50 billion, with a workforce growing to over 100,000 engineers and graduates.
In Phase 3 (2040-2050), Vietnam aspires to become a leading player in the global semiconductor arena, aiming for at least 300 design companies, three semiconductor chip manufacturing plants, and 20 packaging and testing facilities. The semiconductor industry’s revenue is anticipated to exceed USD 100 billion annually, while the electronics sector is expected to surpass USD 1.045 trillion. Despite the government’s ambitious strategy, challenges remain, including power shortages, competitive salaries for talent, and a weak technological foundation.
