Monday, July 13, 2026

Optimal Transit unveils self-powered vessel-based AI data centre


Optimal Transit Unveils Kraaken™: The World’s First Self-Powered Maritime AI Infrastructure Platform with CAPEX & OPEX Costs at a Fraction of Conventional Land-Based Facilities.

From SmartMaritimeNetwork by Rob O'Dwyer

Optimal Transit has unveiled Kraaken, a family of standardised self-powered maritime AI data centre platforms engineered to eliminate dependence on land, the electrical grid, freshwater cooling and conventional fuel.

Kraaken generates its own continuous electrical power by combining the thermal energy naturally stored in the ocean with waste heat produced by the data centre itself.
Through the company’s multi-stage Digital Ocean Thermal (DOT) engine, waste heat that would otherwise be rejected is transformed into an energy source.
This is combined with cold ocean water for cooling.

The system is designed for continuous operation 365 days per year in marine environments ranging from equatorial waters to Arctic regions without requiring conventional fuel deliveries.

The platforms are built upon Small Waterplane Area Twin Hull (SWATH) vessel technology to provide stability for hyperscale computing while supporting continuous high-bandwidth optical and satellite communications.
The modular platforms can operate either permanently moored offshore or independently at sea.

If severe weather threatens, a platform can disconnect from its mooring and relocate under its own propulsion at speeds approaching 30 kilometres per hour.

“Artificial intelligence is creating unprecedented demand for power, water and land,” said Scott Myers, President of Optimal Transit.
 
Optimal Transit’s Patented Digital Ocean Thermal (DOT) Engine Technology Uses COTS Components to Generate 100MW of Continuous 365-day/24-hour Electricity
 
“Kraaken takes a fundamentally different approach by moving data centre infrastructure offshore and using proven marine engineering together with our patented Digital Ocean Thermal technology to produce continuous electrical power.”

“Our innovation is not dependent on new scientific breakthroughs – it’s built on integrating commercially proven technologies into a standardised platform.”

Optimal Transit estimates that the infrastructure cost of a standardised 100 MW Kraaken platform, excluding computing hardware, is less than US$500 million, with projected annual operating expenses of US$10 million to US$20 million.

The product family is designed around standardised modular platforms optimised for different computing missions.
The 10/20 MW Kraaken is a 76.2-metre, 10,160-ton vessel configured for edge computing, cloud applications and regional AI processing.
The flagship 50/100 MW Kraaken is a 91.4-metre, 50,802-ton vessel optimised for hyperscale AI training and large language model applications.

Over the next nine months, proceeds from the company’s ongoing Series A financing are expected to fund the completion of American Bureau of Shipping (ABS)-ready engineering drawings for the 20 MW and 100 MW platforms, together with digital twin validation of the DOT engine.

Subject to the completion of a planned Series B financing in 2027, the company intends to establish standardised production capable of delivering up to 20 Kraaken 100 MW platforms annually through shipyards worldwide, with each platform representing approximately US$400 million in infrastructure value.

Sunday, July 12, 2026

Beneath the seas: the adventure of marine cartography

 
 The Brest harbor and its surroundings in 1820, with numerous measurements taken one by one to determine the depth at each point. | SHOM
 
From Ouest France by Angellina Thieblemont

“Some Maps Remain ‘Classified’”: 
The History of Nautical Charts Told at the Brest Naval Museum

The exhibition at the Brest Naval Museum, “Beneath the Seas: The Adventure of Marine Cartography,” opens on June 26.
It traces the evolution of this practice over the past 500 years, as well as its military, archaeological, and economic uses—aspects largely unknown to the general public.

Stories of shipwrecks lost in Brest Harbor (Finistère), British blockades of the port, and maps classified as “defense secrets”… 
All these stories have one thing in common: they chronicle the development of underwater cartography in the new major exhibition at the Brest Naval Museum (Finistère), which opens on June 26, 2026.
 
Brest, home to the world’s oldest underwater mapping service

To mark the 400th anniversary of the French Navy, an exhibition on “The Call of the Deep” is being held in Paris, Toulon, Port-Louis, Rochefort, and Brest.
Each location of the National Maritime Museum explores a different aspect of this exploration of the ocean depths.
In Brest, the focus is on the history of marine cartography, from the 16th century to the present day. 
It is no coincidence that this theme was assigned to the “City of the Ponant”: since 1971, Brest’s Bergot district has been home to the Navy’s Hydrographic and Oceanographic Service (SHOM).
Founded in 1720, it is the oldest marine mapping service in the world.

 
A rare document depicting the Crozon Peninsula, Pointe Saint-Mathieu, and the Brest harbor, known as “Baye de Breft.” | NATIONAL MARITIME MUSEUM

In two rooms, shielded from the heat wave by the fort’s thick walls, the exhibition explains why and how nautical charts have been made since the 16th century. Among the hundred or so works on display are period maps featuring drawings of the monsters believed to lurk beneath the sea’s surface, as well as parchments, paintings, models, and a full-scale replica of a chart room complete with period tools…

Visitors also learn about the story of Charles-François Beautemps-Beaupré, the father of modern hydrography. In the 19th century, this pioneer set out to survey the coast of Brest. It was one of the first seabeds in the world to be mapped. On one of his maps, thousands of numbers are scattered across a drawing of the harbor. They give a sense of the titanic undertaking: for each point, a rope with a lead weight was lowered from their small boat and used as a sounding line.

 
A map of the Mediterranean and the eastern Atlantic, 1537. This map was painted on parchment by Vesconte de Maggiolo (1457–1530). | NATIONAL MARITIME MUSEUM

Deliberately Falsifying Maps

The exhibition features several thematic sections, highlighting the many fields in which hydrography is useful, particularly in archaeology and the installation of internet cables.

Brest. Me, the mayor...

But since the 16th century, this science has been most widely used in the field of defense: mapping sandbars to avoid running aground during battles, creating false maps that omit hazards to trap opponents… 
Such was the case with the Rocher de la Rose, an obstacle that loomed at the entrance to the Penfeld channel until the 19th century and was blown up by divers. 
It was deliberately omitted from maps in order to cause enemy ships to run aground. 
Visitors can also view one of the maps of the Normandy beaches that was used to prepare for the 1944 D-Day landings.
 
 
The 1842 painting *Combat du Grand Port* depicts a battle in which a British ship is defeated and runs aground on sandbars, while the French ships—which benefit from highly accurate nautical charts—escape unscathed. | NATIONAL MARITIME MUSEUM/A. FUX
 
Only 26% of the ocean floor will be mapped by 2026

Today, some maps are classified as defense secrets because of their quality and accuracy. 
“Accuracy is a weapon,” explains Jean-Yves Besselièvre, director of the National Maritime Museum. Since the 16th century, only 26% of the planet’s ocean floor has been mapped. 
“We’ve mapped the surface of the moon better than we’ve mapped the ocean depths,” says Jean-Yves Besselièvre.
Titled “Beneath the Seas: The Adventure of Underwater Cartography,” the exhibition runs through March 2027. 
A family guidebook has been created for children.
It allows them to explore the exhibition in a fun way by inviting them to conduct a mini-investigation.

Saturday, July 11, 2026

The wildest shoot of my career (Benjamin Hardman)


Here are a couple of unseen angles from the moment I witnessed a Polar Bear attempting to hunt a Beluga whale pod in the Arctic pack ice, located in the marginal ice zone between Svalbard and Greenland.
This whole moment unfolded so quickly and revealed the sheer intensity that can arise out of nowhere in these otherwise very calm and desolate sea ice landscapes.

Friday, July 10, 2026

Collapse of AMOC ocean current may already be locked in

A visualisation of Atlantic Ocean currents based on sea surface temperature dataNASA/Goddard Space Flight Center Scientific Visualization Studio

From New Scientist by Chris Simms
 
The fate of the Atlantic Ocean current that keeps Europe’s climate warm depends on our carbon emissions and the rate of ice melt from Greenland, but there is a chance that a shutdown is already inevitable
 
 A potentially catastrophic collapse of the Atlantic Ocean currents that control Europe’s climate may already be inevitable.
Based on model simulations, researchers estimate that there is a 10 to 23 per cent chance that such a collapse is locked in.

“There is a significant probability that we’re already committed to collapse, and we can’t change that even now,” says Phil Holden at the Open University, UK.

The Atlantic Meridional Overturning Circulation (AMOC) carries warm, salty water from the tropics into the North Atlantic Ocean, where it cools, sinks and then returns south.
This circulation regulates the climate across Europe, Africa and the Americas.

Recently, there have been signs that this vital current system is weakening, including by slowing in some areas, partly because the melting of the Greenland ice sheet caused by climate change is making the salty water less dense, so that it sinks more slowly.

Some scientists have suggested that the AMOC could collapse, plunging Europe into near-Arctic conditions and weakening monsoon systems around the world.
One recent study found the AMOC could cross a tipping point within decades, but it is difficult to say how likely this is.

“The AMOC collapse has just been so intangible,” says Holden.
“So far there’s been no firm quantification of whether it is going to happen or when it is going to happen.”

“There’s a lot of uncertainty, and a lot of different opinions among the expert scientific community,” says Tim Lenton at the University of Exeter, UK.

To get a better idea of what might happen to AMOC, Holden, Lenton and their colleagues ran 21 computer simulations with varying rates of Greenland ice melt and emissions peaking at different dates, at 10-year intervals from 2005 through to 2135.
The team assumed that, after the peak, greenhouse gas emissions would fall to net zero over 35 years while the melt rate of Greenland ice would stay constant.
Each simulation ran for a total of 300 years.

The models indicate that under very conservative assumptions – emissions peaking in 2025 and the Greenland ice sheet adding just 54 millimetres to sea-level rise by 2100 – there is a 10 per cent chance that the collapse of the AMOC is already inevitable.
The researchers defined this as when the circulation would only occur at lower latitudes, and when the overturning current that brings heat to the high latitudes has stopped.

If we don’t start on the path to net zero until 2100, the probability of collapse rises to 80 per cent, the model predicts.

Under less conservative assumptions, with melting ice from Greenland adding 274 mm to sea-level rise, as is projected by 2100, the probability that we are already committed to collapse is 23 per cent.

Even when a collapse becomes inevitable, it would take a long time to happen.
In the simulations, the average delay between the year in which the world becomes committed to collapse and the collapse coming to pass was 84 years, with the earliest collapse occurring around 2060.

“This idea of talking about committed collapse, rather than when the collapse actually happens, frames it in a way that’s quite interesting for risk management,” says Till Wagnerat the University of Wisconsin-Madison, but he is cautious about extrapolating to the real world.
“I think there’s fairly good evidence that there’s going to be a weakening, but the actual larger-scale dynamical outcome is still very much up in the air.”

Jonathan Baker at the Met Office, the UK’s national weather service, says the simulations provide a valuable way to explore how the AMOC responds to different scenarios, but the low resolution of the model used means it isn’t as sensitive as some other climate models, which might influence its estimates of risk.

Many state-of-the-art climate simulations can compute the globe in grids of 1° of latitude and longitude, which takes huge amounts of computational resources and time to run long-term simulations.
The model used in this study uses 5° grids, but this low resolution was a deliberate choice, says Lenton.

“There isn’t the compute power, or no one’s had the ability to do this exercise with a higher-resolution model,” he says.
This does mean the probabilities of the risk estimates could be different at higher resolution, he says, but recent research on the AMOC using a higher-resolution model indicates that, if anything, this might raise rather than lower the estimates.

“Further work using multiple climate models and comparison with the wider body of evidence will be important before drawing reliable conclusions about the magnitude of future AMOC collapse risk,” says Baker.

If there is a chance the world is already committed to AMOC collapse, as the model suggests, this should provide extra incentive to cut emissions, says Lenton.
This is because the model indicates that the probability of AMOC collapse rises sharply if net zero is delayed.
If emissions continue unabated for 10 extra years beyond the point of commitment, the actual collapse would happen faster – after 57 years, on average, rather than 84.

“What the model is saying to me is ‘let’s do everything in our power to get to net zero as quickly as possible to try to keep this probability down at the 10 per cent level’,” says Lenton.

This chimes with research published last month hinting that the slowdown of the AMOC may be reversible – if carbon dioxide emissions come down enough.

Links :

Thursday, July 9, 2026

Occupational risk ? Chinese presence surges at Scarborough Shoal




From AMTI CSIS

Midway through 2026, Scarborough Shoal remains the focal point of Philippine-China frictions in the South China Sea, with recent tensions stemming from China’s deployment of floating objects at the shoal, including buoys, floating barriers, and most recently, a temporary research structure.
But new data on ship movements reveals yet another cause for concern at Scarborough: a massive increase in presence from the China Coast Guard (CCG), the backbone of Beijing’s efforts to exercise control over the shoal.
 

A Chinese Coast Guard (CCG) patrol ship maneuvers next to a Filipino fisherman paddling a Philippine flag aboard a motorized wooden boat as they sail towards Scarborough Shoal in the disputed South China Sea, 16 May 2024. 
A civilian-led mission joined by at least a hundred fishermen embarked on Scarborough Shoal in the disputed South China Sea to assert the Philippines’ territorial claim. 
Scarborough Shoal (‘Bajo de Masinloc’ called by Filipino fishermen), a fishing haven shoal within the Philippine maritime territory that China occupied a decade ago, was recently reported to be driving away Filipino fishermen by Chinese coastguard ships. 
EPA/FRANCIS R. MALASIG

 A Look at the Data

To better assess recent activity at Scarborough Shoal, AMTI analyzed automatic identification system (AIS) data around the shoal from January 1 to June 30, 2026.
The data collected focused on documenting the presence of China Coast Guard (CCG), Philippine Coast Guard (PCG), and Bureau of Fisheries and Aquatic Resources (BFAR) vessels, as well as instances of interactions between these Chinese and Philippine ships.

The data shows that CCG patrols at Scarborough have significantly increased in 2026, a remarkable feat given that 2025 was already a record year for CCG presence at the shoal.
Through the first six months of 2026, CCG patrols at Scarborough amounted to 933 ship-days, nearly as much as 2025’s entire annual total of 1,099 ship-days (which itself had already doubled from 2024’s total of 516 ship-days).

On a monthly basis, CCG patrol volume increased from an average of 90 ship-days per month in the first half of 2025, to 156 per month in 2026, with ship-days peaking at 216 in May.

Scaborough shoal with the GeoGarage platform (UKHO nautical raster chart)

As has been the case since last year, some CCG operating near Scarborough conducted patrols along, and sometimes over, China’s claimed nine-dash line, positioning themselves to intercept Philippine ships heading toward the shoal.
But in comparison to previous periods, the density of patrol coverage near the shoal has markedly increased.
Multiple CCG ships were often seen coordinating to maintain a perimeter patrol, covering all approaches to Scarborough in an approximately 30 nautical mile radius.
And inside that perimeter, a persistent detachment of 6-8 Chinese maritime militia maintained similar coverage of the area closer to the shoal.

Philippine law enforcement patrols near Scarborough also increased in 2026, though they remained far fewer than those of the CCG.
PCG and BFAR vessels averaged 43 ship-days per month in the first half of 2026 compared to 30 ship-days in the same period last year, an increase of 43 percent.


Encounter between CCG 21563 and the BRP Datu Pagbuaya, and four other vessels on May 27, 2026

The frequent patrols have continued to lead to dangerous encounters between Philippine and Chinese ships.
Data for the first half of 2026 showed 112 days on which an interaction was observed between CCG and PCG/BFAR ships near Scarborough, averaging out to 19 days per month.
And in several instances, including a May 27 encounter between the CCG 21563 and the BRP Datu Pagbuaya, satellite imagery revealed the presence of additional ships not visible on AIS.

Floating Structures and Research Activities

Beijing’s redoubling of its coast guard patrols has occurred alongside other more creative Chinese initiatives at Scarborough.

Since China’s declaration of a nature reserve at Scarborough Shoal last September, Beijing has installed multiple floating structures in and around the shoal.
In the latest incident, the Philippines filed a diplomatic protest against China over a 6-by-6-meter floating structure that was found inside the lagoon of the shoal on May 25.
This was the first structure of its kind to be seen in the area, which raised alarms in Manila that Beijing was possibly beginning a larger buildout at the shoal.
Chinese official sources, including the Chinese embassy in Manila, eventually stated that the platform was a “temporary research facility” collecting data on the ecosystem of the shoal.
The deployment of the platform coincided with the end of a research expedition by a Chinese survey vessel, the Xiang Yang Hong 33, which spent several days at Scarborough in late May after conducting operations at multiple reefs in the Spratly Islands in the preceding weeks.


That platform was eventually removed on June 17, but other floating objects recently installed by China remain at the shoal. 
This includes two buoys installed last October, and several new objects identified by the PCG in May.

Pushing New Boundaries

China’s activities at Scarborough have entered uncharted territory.
The level of concerted CCG presence at the shoal in 2026 is beyond any previously observed CCG activity in the South China Sea since AMTI began regular AIS tracking in 2019.
And as Beijing doubles down on these familiar tactics, it is also employing new methods to enhance its physical presence and establish new patterns of (nominally) civilian activity at the shoal—all without crossing the traditional red lines of building a permanent structure or conducting land reclamation.
As Beijing pushes the boundaries of just how much control it can assert over the shoal, Manila and Washington would do well to keep a close eye on Scarborough.
 
Links :