While there has been much speculation about AI being a potential negative force on humanity, what we do know today is that the accelerated use of AI WILL mean an accelerated use of energy. And if that energy source is not renewable, AI will have a meaningful negative impact on CO2 emissions and will accelerate climate change. Even if the energy is renewable, GPUs and CPUs generate significant heat – and if that heat is not captured and used effectively then it too will have a negative impact on warming local environments near data centres.
Balancing Speed and Energy Efficiency
While GPUs use significantly more energy than CPUs, they run many AI algorithms faster than CPUs – so use less energy overall. But the process needs to run – and these are additional processes. Data needs to be discovered, moved, stored, analysed, cleansed. In many cases, algorithms need to be recreated, tweaked and improved. And then that algorithm itself will kick off new digital processes that are often more processor and energy-intensive – as now organisations might have a unique process for every customer or many customer groups, requiring more decisioning and hence more digitally intensive.
The GPUs, servers, storage, cabling, cooling systems, racks, and buildings have to be constructed – often built from raw materials – and these raw materials need to be mined, transported and transformed. With the use of AI exploding at the moment, so is the demand for AI infrastructure – all of which has an impact on the resources of the planet and ultimately on climate change.
Sustainable Sourcing
Some organisations understand this already and are beginning to use sustainable sourcing for their technology services. However, it is not a top priority with Ecosystm research showing only 15% of organisations focus on sustainable procurement.
Technology Providers Can Help
Leading technology providers are introducing initiatives that make it easier for organisations to procure sustainable IT solutions. The recently announced HPE GreenLake for Large Language Models will be based in a data centre built and run by Qscale in Canada that is not only sustainably built and sourced, but sits on a grid supplying 99.5% renewable electricity – and waste (warm) air from the data centre and cooling systems is funneled to nearby greenhouses that grow berries. I find the concept remarkable and this is one of the most impressive sustainable data centre stories to date.
The focus on sustainability needs to be universal – across all cloud and AI providers. AI usage IS exploding – and we are just at the tip of the iceberg today. It will continue to grow as it becomes easier to use and deploy, more readily available, and more relevant across all industries and organisations. But we are at a stage of climate warming where we cannot increase our greenhouse gas emissions – and offsetting these emissions just passes the buck.
We need more companies like HPE and Qscale to build this Sustainable Future – and we need to be thinking the same way in our own data centres and putting pressure on our own AI and overall technology value chain to think more sustainably and act in the interests of the planet and future generations. Cloud providers – like AWS – are committed to the NetZero goal (by 2040 in their case) – but this is meaningless if our requirement for computing capacity increases a hundred-fold in that period. Our businesses and our tech partners need to act today. It is time for organisations to demand it from their tech providers to influence change in the industry.
Technology has been reshaping the Real Estate industry landscape. Advancements in manufacturing technologies, digital tools, AI & analytics, and IoT – coupled with customer and employee expectations – are revolutionising how properties are built, bought, sold, managed, and experienced.
The evolution of RealTech and PropTech has a far-reaching impact on the industry, streamlining processes, improving customer experiences, and driving innovation across the entire sector.
Read on to find out how technology impacts the entire value chain; the key drivers of Real Estate evolution; the strong influence of “smart consumers”; and what Ecosystm VP Industry Insights Sash Mukherjee thinks where the industry is headed.
Download ‘The Future of Real Estate’ as a PDF
The Manufacturing industry is at crossroads today. It faces challenges such as geopolitical risks, supply chain disruptions, changing regulatory environments, workforce shortages, and changing consumer demands. Overcoming these requires innovation, collaboration, and proactive adaptation.
Fortunately, many of these challenges can be mitigated by technology. The future of Manufacturing will be shaped by advanced technology, automation, and AI. We are seeing early evidence of how smart factories, robotics, and 3D printing are transforming production processes for increased efficiency and customisation.
Manufacturing is all set to become more agile, efficient, and sustainable.
Read on to find out the changing priorities and key trends in Manufacturing; about the World Economic Forum’s Global Lighthouse Network initiative; and where Ecosystm advisor Kaushik Ghatak sees as the Future of Manufacturing.
Click here to download ‘The Future of Manufacturing’ as a PDF
The idea of solar energy beamed back to earth from space was born a century ago by astronautics pioneer, Konstantin Tsiolkovsky, and then popularised by Isaac Asimov in his 1941 short story Reason. Although the first designs for a solar power satellite with microwave-based transmission were developed by Czech-born NASA engineer, Peter Glaser, in 1968, it has taken decades for complementary technologies to catch up to even make testing the concept feasible.
Space-based solar power (SBSP) uses photovoltaic panels on satellites to generate electricity and beam it back to Earth in microwave form. The energy is then converted back to electricity at a rectenna receiving station connected to the grid. By deploying a network of geostationary satellites, it is theoretically possible to transmit energy around the globe before beaming it back to Earth. The technology would be a breakthrough, generating abundant renewable energy 24 hours per day, regardless of the weather or season. This would overcome the primary challenge of renewables – intermittency – and reduce the need for storage.
Reusable Rockets and Small Satellites
One of the greatest hurdles to commercialising SBSP is the prohibitive cost to launch into orbit, but the advent of reusable rockets and small satellites has brought down the price dramatically. Private companies, like SpaceX and Rocket Lab, charge between USD 3,000-30,000 per kilogram of payload to low earth orbit, a fraction of the cost when launches were dominated by government space agencies.
The emergence of cheaper small satellites, or CubeSats, is also creating a landscape favourable to innovation in space. Researchers can afford to experiment with new technologies by launching prototypes into orbit and iterating quickly.
Caltech Experiment Proves Transmission is Possible
While the efficiency and durability of photovoltaic panels have improved exponentially and the cost of launching satellites into space has plummeted, transmitting power back to Earth remains a challenge. Electricity must be converted into microwaves, with the beams steered back through the earth’s atmosphere. Transmission can be degraded by factors, such as atmospheric absorption, diffraction, and weather.
Researchers from The California Institute of Technology (Caltech) recently achieved a milestone by demonstrating that the transmission of energy from space is possible. The Caltech Space Solar Power Project (SSPP) launched the Microwave Array for Power-transfer Low-orbit Experiment (MAPLE) onboard the Space Solar Power Demonstrator (SSPD-1) earlier this year. In progressively ambitious experiments, the researchers lit up two LEDs in orbit to test energy transfer in space. Next, they successfully transmitted a “detectable” amount of power to antennae on the roof of the Moore Laboratory at Caltech. This may prove to be the first step toward developing a commercially viable system.
Governments Recognise Space-based Solar Potential
With sustainability and energy security coming sharply into focus over the last year, governments have sat up and paid attention to the potential of SBSP. The UK’s energy security secretary, Grant Shapps, recently announced the winners of £4.3M in funding to develop the technology. The grants were devised to tap into the 10GW of space-based solar power potential that an independent study estimated would be available to the UK. Public entities in the EU, China, Japan, and the US have made similar announcements over the past 12 months, signalling a rapid shift in momentum for SBSP.
A Revolution of Space-based Power and Communications
Although SBSP is still undeniably an experimental technology, recent developments hint at a future where clean energy could be beamed down to Earth. Even accounting for transmission loss, each solar power satellite is estimated to deliver the equivalent of a nuclear power station to the grid.
Access to power remains a major obstacle to data centre operators, whether they are hyperscale cloud providers, city-based facilities at capacity, or small regional edge data centres. In recent years, cloud hubs, such as Singapore and Ireland, have imposed strict controls on new data centre builds due to concerns about escalating power consumption. Rising prices for natural gas have made the business case for renewable sources for data centre power even more attractive and space-based solar is an alluring candidate to add to the future mix.
Power transmitted to Earth could be coupled with low latency connectivity provided by satellites in low earth orbit from the likes of Starlink. The pairing of power and connectivity from satellites means even remote locations could be served. Advances in energy and communications have ignited progress since the discovery of fire and the emergence of language and these space-based innovations will undoubtedly play a key role in the next industrial revolution.
Discover how sustainability initiatives in Australia are shaping a greener future as industry experts discuss progress, challenges, and partnerships driving positive change.
Join Sash Mukherjee, VP Industry Insights at Ecosystm, and industry leaders Lia Nicholson, Head of Sustainability at Terrascope, Kai Lincoln, VP Global Sustainability at SEKO Logistics, and Rory Martin, VP Group Sustainability at Frasers Property as they shed light on the progress, challenges, and partnerships shaping sustainability initiatives within the Food & Agriculture, Logistics, and Real Estate & Construction industries in Australia.
Gain valuable insights into the innovative solutions being implemented, collaborative efforts driving change, and the collective determination to build a greener and more sustainable future. Don’t miss this thought-provoking discussion on how industries are paving the way towards a sustainable Australia.
Podcast: Play in new window | Download (Duration: 31:43 — 7.5MB)
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Zurich will be the centre of attention for the Financial and Regulatory industries from June 26th to 28th as it hosts the second edition of the Point Zero Forum. Organised by Elevandi and the Swiss State Secretariat for International Finance, this event serves as a platform to encourage dialogue on policy and technology in Financial Services, with a particular emphasis on adopting transformative technologies and establishing the necessary governance and risk frameworks.
As a knowledge partner, Ecosystm is deeply involved in the Point Zero Forum. Throughout the event, we will actively engage in discussions and closely monitor three key areas: ESG, digital assets, and Responsible AI.
Read on to find out what our leaders — Amit Gupta (CEO, Ecosystm Group), Ullrich Loeffler (CEO and Co-Founder, Ecosystm), and Anubhav Nayyar (Chief Growth Advisor, Ecosystm) — say about why this will be core to building a sustainable and innovative future.
Download ‘Building Synergy Between Policy & Technology’ as a PDF
The Retail industry has faced significant challenges in recent times. Retailers have had to deliver digital experiences and delivery models; navigate global supply chain disruptions; accommodate the remote work needs of their employees; and keep up with rapidly changing customer expectations. To remain competitive, many retailers have made significant investments in technology.
However, despite these investments, many retailers have struggled to create market differentiation. The need for innovation and constant evolution remains.
As retailers cope with hypersonalisation trends, supply chain vulnerabilities, and the rise of ESG consciousness, the industry is seeing several instances on innovation.
Read on to find out how brands such as Clinique, Gucci, Tommy Hilfiger, Nike, Woolworths, Prada, Levi Strauss, Mahsenei Hashuk and Instacart are using emerging technologies such as the Metaverse and Generative AI to create the much-needed market edge.
Download “The Future of Retail” as a PDF
We have seen a steady shift in people’s awareness of the environmental and social impacts of their actions. And this awareness, has led to a demand for sustainable and ethical practices from brands they interact with. Consequently, organisations are feeling the pressure to incorporate ESG factors into their business models to attract and retain customers; to nurture a purpose-drive talent pool; to address investor activism; and to comply with industry and country regulations.
At the Leaders Dialogue: Asian Sentiment 2023 conversation, Ecosystm Founder and Chairman, Amit Gupta; Ahmed Mazhari, President of Microsoft Asia; Padmashree (Paddy) Santosh, VP & Global Head of Learning, Diversity and Organisation Effectiveness at Olam Agri; and Luca Destefanis, Head of Marketing APAC at Kyndryl discussed the biggest drivers, opportunities, and challenges for Asian leadership in driving a sustainable future.
Here are the key takeaways:
- There has been a clear growth in a collective consciousness.
- ESG initiatives must start with a clear definition of the goals.
- It will require a multi-dimensional strategy that focuses on strategic alignment and people.
- ESG strategies need to be technology-enabled
- Ultimately, data is the key enabler of all ESG efforts
- Tech companies are focusing on expanding their ESG impact.
Read on to find out more.
Download The ESG Conversation as a PDF
Organisations are uncertain about how 2023 will shape up for them, amidst concerns about recessions, supply chain uncertainties, continued geopolitical volatility, energy crisis, and labour disruptions. At the same time, they have to continue to evolve their products and services, the customer experiences they deliver, and overall brand image.
If you are a tech leader, your first instinct would be to cut down on technology spend to align with your organisation’s cost optimisation strategy. And that is where you would make the first mistake – this is the time to invest in the right technologies to help your organisation face the uncertainties with agility.
Here are 5 things that you should keep in mind when shaping your organisation’s tech landscape in 2023.
- Focus on the shortest time to value. Choose a few smart digital improvements that are aligned with the strategic goals of the business and deliver value quickly.
- Drive better corporate outcomes through Sustainability programs. The transition to smart and sustainable digital assets and infrastructure should be a top priority for today’s technology leaders.
- Build resilience by improving value chain visibility. Digital technologies will continue to play an important role in providing visibility and insights across the value chains for risk management and resilience.
- Treat location data as a feedstock for AI & Automation. With the increasing importance of automation, especially to contemporary service models like digital twins and metaverse, incorporating spatial and location data into your strategy is essential for staying ahead of the competition and driving meaningful business outcomes.
- Find allies against cyber adversaries. Join the cybersecurity communities that exist in your geography and industry. Participate openly as possible so that lessons are shared quickly and widely. Don’t try to defeat the flood on your own.
Read on to find more.
Download Making the Right Tech Decisions for Better Value as a PDF