Indicate by check mark whether the registrant files or will file annual
reports under cover Form 20-F or Form 40-F.
On June 23, 2026, Eco Wave
Power Global AB (publ) (the “Company”) issued a press release titled “Eco Wave Power Turns Waves Into Watts With NVIDIA
AI Infrastructure and Digital Twins” a copy of which is furnished as Exhibit 99.1 with this Report of Foreign Private Issuer on
Form 6-K.
The first paragraph, the first
five paragraphs under the subheading “Eco Wave Power Turns Waves Into Watts With NVIDIA AI Infrastructure and Digital Twins”,
the first two paragraphs under the subheading “Ocean Powered Data Centers on the Horizon” and the section titled “Forward-Looking
Statements,” in the press release included as Exhibit 99.1 hereto are incorporated by reference into the Company’s Registration
Statements on Form F-3 (Registration Nos. 333-275728
and 333-282101) filed with the
Securities and Exchange Commission to be a part thereof from the date on which this Report of Foreign Private Issuer on Form 6-K is submitted,
to the extent not superseded by documents or reports subsequently filed or furnished.
Pursuant to the requirements of the Securities
Exchange Act of 1934, the registrant has duly caused this report to be signed on its behalf by the undersigned, thereunto duly authorized.
Exhibit 99.1
Eco Wave Power
Turns Waves Into Watts With NVIDIA AI Infrastructure and Digital Twins
MIAMI, June
23, 2026 — Eco Wave Power is pleased to share that NVIDIA has published a corporate blog featuring the Company titled
“Eco Wave Power Turns Waves Into Watts With NVIDIA AI Infrastructure and Digital Twins.”
Read the full article:
https://blogs.nvidia.com/blog/eco-wave-power-ai-digital-twins/
For convenience,
the full text of the NVIDIA article is reproduced below:
Eco Wave Power
Turns Waves Into Watts With NVIDIA AI Infrastructure and Digital Twins
June 22, 2026
by Tenika Versey Walker
The next era of
AI will not be defined by compute alone. Its growth will be determined by energy.
As accelerated
computing scales across AI factories, agentic AI, industrial AI, edge computing and physical AI — including robotics and autonomous
systems — global electricity demand is rising at unprecedented speed.
In many regions,
expanding grid infrastructure to meet that need requires years of permitting, transmission upgrades, land acquisition and capital investment.
This challenge
is reshaping how the world thinks about energy infrastructure for AI.
Eco Wave Power,
a member of the NVIDIA Inception startup program’s Sustainable Futures initiative, is developing technology — powered
by NVIDIA AI infrastructure and digital twins — that converts energy from ocean waves into clean electricity using existing marine
infrastructure. By using already-built coastal structures, wave energy generation can be deployed closer to areas with growing power
demand — including ports, industrial zones and future AI infrastructure hubs.
“Wave energy
is one of the largest renewable energy sources that exists,” said Inna Braverman, cofounder and CEO of Eco Wave Power. “Everybody
wants it, but nobody can do it, so I looked at the current problems with harnessing wave power and I asked: How do we simplify it?”
Turning the
Sea Into a Power Source
Harnessing Earth’s
natural cycles for power generation isn’t a new concept. Wind and solar energy have been well established industries for decades.
Waves are on the
way to completing this trifecta of power-producing elements.
In the U.S. alone,
wave energy could produce over 60% of annual energy consumption, according to the Energy Information Administration.
It all starts with
floaters — noninvasive floating infrastructure attached to breakwaters or sea walls to capture the power generated by waves breaking
against the shoreline.
The density of
seawater is roughly 800x the density of air, allowing larger amounts of energy to be generated using much smaller devices than wind turbines.
The next step is
managing and distributing that power. While previous companies faced a bottleneck at this stage — due to having their computer
hardware in the floater, leading to potential damages during rough currents — Eco Wave Power puts its computers, sensors, hydraulic
conversion and electric parts on land at centers, keeping expensive hardware dry and safe from storms.
“Wave energy
is the least intermittent source of renewable energy,” Braverman said. “Solar energy — for example — is great,
but you have night, winter, cloud coverage and pollution that all impact production. With wave energy, you can generate around the clock.”
AI Wave Energy
Layer Using NVIDIA Omniverse Libraries and Accelerated Compute
As AI infrastructure
expands, energy systems themselves are becoming increasingly intelligent.
Digital twins of
wave patterns and floating infrastructure — built with NVIDIA Omniverse libraries — can simulate wave conditions, structural
behavior, deployment configurations and operational scenarios before physical installation begins. These virtual environments can help
optimize engineering decisions, reduce deployment risk and accelerate infrastructure planning.
See the Video Player
embedded within the NVIDIA corporate blog: https://www.youtube.com/shorts/ypkGqP-jclA
At the operational
layer, NVIDIA accelerated computing and AI technologies enable real-time optimization of wave energy systems through predictive analytics,
anomaly detection, environmental forecasting and predictive maintenance. AI models can continuously analyze ocean conditions, equipment
performance and energy generation patterns to improve efficiency and operational resilience.
AI can also orchestrate
energy-aware computing infrastructure by aligning energy-intensive workloads with periods of stronger renewable generation and dynamically
optimizing power utilization across distributed systems.
Ocean Powered
Data Centers on the Horizon
Eco Wave Power
operates projects in Jaffa Port, Israel, created in collaboration with EDF Power Solutions and the Israeli Energy Ministry, and in the
Port of Los Angeles, developed in collaboration with AltaSea and Shell. Eco Wave Power is also developing new projects in Portugal at
the Port of Leixões, Suao Port in Taiwan, and Mumbai, India, with Bharat Petroleum.
Wave power has
already demonstrated its ability to handle consumer energy needs — and is now showing potential to support data centers.
“We have
a possibility to link AI factories directly to wave energy, because a lot of data centers are moving toward the coast,” Braverman
said. “They need cooling and water, so they’re now located in ports.”
Pilots are already
underway at the port of Los Angeles to showcase how wave energy can be the sole power source for a data center without tapping into the
existing grid energy.
AI software serves
as the control layer for this data center pilot, planning compute tasks based on the available power supply. For example, the software
can monitor and predict when waves will be stronger throughout the week based on weather patterns — and accordingly allocate more
intensive compute tasks for these periods.
“We exist,
we work, we’re grid connected and we have so much of this resource,” Braverman said. “The energy is needed now,
so I think we’re in the right place at the right time and we’re innovative, but we’re not futuristic, and that’s
what sets us apart.”
Explore how NVIDIA is driving the future
of energy.
*****
For more information, please visit:
www.ecowavepower.com
Press inquiries:
info@ecowavepower.com
Note: Information available on or through
the website mentioned herein does not form part of this press release.
Forward-Looking Statements
This press release
contains forward-looking statements within the meaning of the “safe harbor” provisions of the U.S. Private Securities Litigation
Reform Act of 1995 and other Federal securities laws. For example, the Company (NASDAQ: WAVE) is using forward-looking statements in
this press release when it discusses the possibility the Company can link wave energy directly to AI factories and data centers, its
development of new projects in Portugal, Taiwan, and India, and the possibility of wave energy to serve as a sole power source for data
centers without tapping into the existing grid. Forward-looking statements can be identified by words such as: “anticipate,”
“intend,” “plan,” “goal,” “seek,” “believe,” “project,” “estimate,”
“expect,” “strategy,” “future,” “likely,” “may,” “should,” “will”,
or variations of such words, and similar references to future periods. These forward-looking statements and their implications are neither
historical facts nor assurances of future performance and are based on the current expectations of the management of Eco Wave Power and
are subject to a number of factors, uncertainties and changes in circumstances that are difficult to predict and may be outside of Eco
Wave Power’s control that could cause actual results to differ materially from those described in the forward-looking statements. Therefore,
you should not rely on any of these forward-looking statements. Except as otherwise required by law, Eco Wave Power undertakes no obligation
to publicly release any revisions to these forward-looking statements to reflect events or circumstances after the date hereof or to
reflect the occurrence of unanticipated events. More detailed information about the risks and uncertainties affecting Eco Wave Power
is contained under the heading “Risk Factors” in Eco Wave Power’s Annual Report on Form 20-F for the fiscal year ended December
31, 2025 filed with the SEC on March 12, 2026, which is available on the SEC’s website, www.sec.gov,
and other documents filed or furnished to the SEC. Any forward-looking statement made in this press release speaks only as of the date
hereof. References and links to websites have been provided as a convenience and the information contained on such websites is not incorporated
by reference into this press release.