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GREENMONK: THE BLOG
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IBM ACQUIRES WEATHER.COM FOR CLOUD, AI (AAS), AND IOT
February 2, 2016 by Tom Raftery
IBM has announced the completion of the acquisition The Weather Company’s B2B,
mobile and cloud-based web-properties, weather.com, Weather Underground, The
Weather Company brand and WSI, its global business-to-business brand.
At first blush this may not seem like an obvious pairing, but the Weather
Company’s products are not just their free apps for your smartphone, they have
specialised products for the media industry, the insurance industry, energy and
utilities, government, and even retail. All of these verticals would be
traditional IBM customers.
Then when you factor in that the Weather Company’s cloud platform takes in over
100 Gbytes per day of information from 2.2 billion weather forecast locations
and produces over 300 Gbytes of added products for its customers, it quickly
becomes obvious that the Weather Company’s platform is highly optimised for Big
Data, and the internet of Things.
This platform will now serve as a backbone for IBM’s Watson IoT.
Watson you will remember, is IBM’s natural language processing and machine
learning platform which famously took on and beat two former champions on the
quiz show Jeopardy. Since then, IBM have opened up APIs to Watson, to allow
developers add cognitive computing features to their apps, and more recently IBM
announced Watson IoT Cloud “to extend the power of cognitive computing to the
billions of connected devices, sensors and systems that comprise the IoT”.
Given Watson’s relentless moves to cloud and IoT, this acquisition starts to
make a lot of sense.
IBM further announced that it will use its network of cloud data centres to
expand Weather.com into five new markets including China, India, Brazil, Mexico
and Japan, “with the goal of increasing its global user base by hundreds of
millions over the next three years”.
With Watson’s deep learning abilities, and all that weather data, one wonders if
IBM will be in a position to help scientists researching climate change. At the
very least it will help the rest of us be prepared for its consequences.
New developments in AI and deep learning are being announced virtually weekly
now by Microsoft, Google and Facebook, amongst others. This is a space which it
is safe to say, will completely transform how we interact with computers and
data.
Filed Under: Internet of Things Tagged With: cloud, cloud computing, IBM,
internet of things, iot, watson, watson IoT cloud
SALESFORCE ON TRACK TO BEING THE CLOUD CRM PROVIDER WITH THE LOWEST CARBON
EMISSIONS
January 14, 2016 by Tom Raftery
We have highlighted here on GreenMonk often enough what a poor job some cloud
companies are doing of making their cloud infrastructure cleaner, and being
transparent about their emissions.
Against that backdrop, it is heartening to see some more enlightened cloud
companies doing the right thing. Salesforce announced today its second renewable
energy purchase agreement. The first announcement, made just last month was of
the signing of a 12-year wind energy purchase agreement, for 40MW of a new West
Virginia wind farm through a virtual power purchase agreement (VPPA). This wind
farm is expected to generate 125,000MWh of wind energy annually.
Today’s news doubles down on that with the disclosure that Salesforce has signed
a second energy agreement, this time with a 24MW new wind farm in Texas which is
expected to generate 102,000MWh of electricity annually. When the two wind farms
are fully up and running then, Salesforce will be buying 227,000MWh of
electricity per annum.
To put this in context, according to its filings with the CDP Salesforce’s total
purchase of energy (electricity, fuel, heat, steam, and cooling) in 2015, was
just under 152,000MWh. So Salesforce’s energy consumption can grow quite a bit
by the time these two wind farms come fully on line in December 2016, and still
be well covered by the output of these two wind farms.
If we compare this to a couple of Salesforce’s competitors* –
* Microsoft purchases 3,570,438MWh of energy, of which 3,240,620MWh comes from
clean energy sources (90.8% clean), and
* SAP purchases 918,320MWh of energy , of which 346,885MWh comes from clean
energy sources (37.8% clean)
So barring any huge spikes in Salesforce’s energy requirements this year, it
looks like they are on track to being the cleanest of the large cloud CRM
providers.
In case you are interested in other cloud computing companies purchases of
renewable energy, I charted a few of them based on their submissions to the CDP
for 2015 – see below
*I tried to find energy and emissions data for Salesforce competitor Workday,
but as yet they have not reported their data to the CDP. When they do, I will
update this post.
Filed Under: Cloud Tagged With: power purchase agreements, ppas, renewable
energy, salesforce, vppas, wind energy
EPSON ECOTANK – AN INKJET PRINTER WHICH DOESN’T USE INKJET CARTRIDGES
November 27, 2015 by Tom Raftery
“Oh boy, I just love buying inkjet cartridges”. Said no-one. Ever. They are
expensive, they run out just when we need them most, or worse they clog, and
there is never a recycling bin nearby when it is time to dispose of them.
So what’s the choice? Laser printers? Well, they are good for black and white
printing, but they have a higher upfront cost, colour laser printers are very
expensive, and they don’t give great results.
So as we posited here on GreenMonk in the past, why doesn’t somebody create an
inkjet printer with refillable wells, instead of disposable cartridges?
It took a few years, but Epson launched their EcoTank range of printers
recently, and they are just that i.e. printers with refillable wells into which
you pour the ink, as opposed to cartridges.
The printers ship with enough ink for about 4,000 pages of printing, after which
you can buy refills, which are surprisingly inexpensive (around $60 on Amazon
for another set of 4 bottles which yields another approx 4,000 pages).
The EcoTank printers cost a bit more initially than printers that take
cartridges (they sell on Amazon for $399) but given the refills are inexpensive,
that difference is quickly made up.
And they are far more convenient, because they need to be refilled far less
often, and not using cartridges, there is no search for specialised recycling
bins after topping up the ink.
Reviews for the EcoTank, both on tech sites, and on Amazon (4 out of 5 stars
with over 100 reviews), are very positive, so there’s that too.
Well done Epson.
Filed Under: sustainability Tagged With: ecotank, epson, inkjet, inkjet
cartridge, inkjet printer
THE FUTURE OF ELECTRIC UTILITIES – CHANGE AND DISRUPTION AHEAD
November 19, 2015 by Tom Raftery
The utilities industry has typically been change averse, and often for good
reasons, but with the technological advances of the past few years, the low
carbon imperative, and pressure from customers, utilities are going to have to
figure out how to disrupt their business, or they will themselves be disrupted.
I gave the opening keynote at this year’s SAP for Utilities event in Huntington
Beach on the topic of the Convergence of IoT and Energy (see the video above).
Interestingly, with no coordination beforehand, all the main speakers referred
to the turmoil coming to the utilities sector, and each independently referenced
Tesla and Uber as examples of tumultuous changes happening in other industries.
What are the main challenges facing the utilities industry?
As noted here previously, due to the Swanson effect, the cost of solar is
falling all the time, with no end in sight. The result of this will be more and
more distributed generation being added to the grid, which utilities will have
to manage, and added to that, the utilities will have reduced income from
electricity sales, as more and more people generate their own.
On top of that, with the recent launch of their PowerWall product, Tesla ensured
that in-home energy storage is set to become a thing.
Battery technology is advancing at a dizzying pace, and as a consequence:
1) the cost of lithium ion batteries is dropping constantly
and
2) the energy density of the batteries is increasing all the time
(Charts courtesy of Prof Maarten Steinbuch, Director Graduate Program Automotive
Systems, Eindhoven University of Technology)
With battery prices falling, solar prices falling, and battery energy density
increasing, there is a very real likelihood that many people will opt to go
“off-grid” or drastically reduce their electricity needs.
How will utility companies deal with this?
There are many possibilities, but, as we have noted here previously, an
increased focus on by utilities on energy services seems like an obvious one.
This is especially true now, given the vast quantities of data that smart meters
are providing utility companies, and the fact that the Internet of Things (IoT)
is ensuring that a growing number of our devices are smart and connected.
Further, with the cost of (solar) generation falling, I can foresee a time when
utility companies move to the landline model. You pay a set amount per month for
the connection, and your electricity is free after that. Given that, it is all
the more imperative that utility companies figure out how to disrupt their own
business, if only to find alternative revenue streams to ensure their survival.
So, who’s going to be the Uber of electricity?
Filed Under: Electricity 2.0 Tagged With: demand side management, disruption,
electricity, iot, solar, utilities
FLEXIBLE POWER ALLIANCE DEVELOPS OPEN SOURCE SOFTWARE AND STANDARD FOR SMART
GRID DEMAND MANAGEMENT
November 11, 2015 by Tom Raftery
We have been talking here on GreenMonk about energy demand management since
early 2008, and our take on it has always been that for demand management to
work, it will need to be automated. Unfortunately, finding a decent automated
demand management solution has proven elusive. In part, the recent rise of the
Internet of Things technologies has helped spur more interest and developments
in this area.
Last week, for example, we attended the European Utility Week in Vienna, and
amongst the many fascinating stands that were there, I came across the Flexible
Power Alliance on CGI‘s stand.
The Flexible Power Alliance is an open source software alliance comprised of
software companies (CGI, and Accenture), Utilities (Alliander and Stedin), and
research organisations (such as TNO). This Alliance has developed a standard
called FAN which is a communication layer between devices and energy services,
and open source software called PowerMatcher, which helps to match the supply
and demand of electricity on a grid.
The software developed with Java and OSGI, is Apache 2.0 licensed, and is
available to download (or fork) on Github.
And in the video above, we talk to Alliander DevOps Consultant Alexander
Krstulovic, and he demonstrates the software in action on a small microgrid. The
software turns up and down the consumption of a bank of LED lights, and changes
the price of electricity depending on the realtime availability of energy on the
virtual market created by the software.
It is worth pointing out that Alliander has trialled this software in the real
world, and are now in the process of commercialising it.
Filed Under: energy demand management Tagged With: Alexander Krstulovic,
Alliander, apache 2.0, energy demand management, Flexible Power Alliance,
github, iot, java, microgrid, open source, osgi, renewables, virtual market
WHAT DO WE DO IN A WORLD WHERE ENERGY IS IN ABUNDANCE?
July 2, 2015 by Tom Raftery
The cost of solar power is falling in direct relation to the amount of solar
power modules being produced. With no end in sight to this price reduction, we
should soon be in a world where energy is in abundance.
Moore’s Law, the law which says the number of transistors in computers doubles
every two years approximately, has an equivalent in solar power called Swanson’s
Law. Swanson’s Law says that the price of solar panels tends to drop 20% for
every doubling of cumulative shipped volume. This leads to a positive feedback
loop of lower prices meaning more solar pv installed, leading to lower prices,
and so on. And consequently, as the price of solar panels drops (see top graph),
the amount of installed solar globally has increased exponentially (see graph on
right).
This law has held true since 1977, and according to the Economist
> technological developments that have been proved in the laboratory but have
> not yet moved into the factory mean Swanson’s law still has many years to run
This positive feedback loop is manifesting itself in China, where in May of this
year the National Development and Reform Commission announced that China would
target a more than tripling of its installed solar capacity to 70 gigawatts (GW)
by 2017.
While in India, Prime Minister Narendra Modi and his cabinet recently approved
increasing the country’s solar target five fold to a goal of reaching 100GW by
2022.
To put those numbers in perspective, according to the International Energy
Agency’s Snapshot of Global PV Markets 2014 report, the total amount of solar PV
installed globally reached 177GW at the end of 2014.
And it is not just South East Asia, Brazil and the US this week reached an
historic climate agreement which will require.
> the US to triple its production of wind and solar power and other renewable
> energies. Brazil will need to double its production of clean energy. The
> figures do not include hydro power.
And according to GTM Research, by 2020 Europe will install 42GW and account for
31% of the global solar market.
Is this having a significant effect on pricing?
Absolutely it is. The price for installed solar hit another new low at the end
of last year when Dubai utility DEWA awarded a contract to Riyadh based
consortium Acwa Power to build and operate a 200MW solar park for a guaranteed
purchase price of 5.84US cents per kWh for 25 years.
To fully appreciate the significance of this price, it is necessary to
understand that the price of natural gas – which generates 99% of the UAE’s
electricity – stands at 9 cents. So, in the United Arab Emirates at least, solar
power is currently 65% of the cost of the next cheapest form of electricity
production. And its price will continue to decline for the foreseeable future.
So, solar power is cheap (in some cases 65% of the cost of the next nearest
competitor), its price is constantly dropping, and with 100’s of gigawatts of
orders coming into the pipeline, the price reductions may even accelerate.
In this scenario we are headed into a world where solar power rates, for all
intents and purposes, approach zero. In that situation, the question becomes,
what do we do in a world where energy is in abundance?
Filed Under: solar
GREENTOUCH RELEASE TOOLS AND TECHNOLOGIES TO SIGNIFICANTLY REDUCE MOBILE
NETWORKS ENERGY CONSUMPTION
June 18, 2015 by Tom Raftery
Mobile industry consortium GreenTouch today released tools and technologies
which, they claim, have the potential to reduce the energy consumption of
communication networks by 98%
The world is now awash with mobile phones.
According to Ericsson’s June 2015 mobility report [PDF warning], the total
number of mobile subscriptions globally in Q1 2015 was 7.2 billion. By 2020,
that number is predicted to increase another 2 billion to 9.2 billion handsets.
Of those 7.2 billion subscriptions, around 40% are associated with smartphones,
and this number is increasing daily. In fact, the report predicts that by 2016
the number of smartphone subscriptions will surpass those of basic phones, and
smartphone numbers will reach 6.1 billion by 2020.
When you add to that the number of connected devices now on mobile networks
(M2M, consumer electronics, laptops/tablets/wearables), we are looking at
roughly 25 billion connected devices by 2020.
That’s a lot of data passing being moved around the networks. And, as you would
expect that number is increasing at an enormous rate as well. There was a 55%
growth in data traffic between Q1 2014 and Q1 2015, and there is expected to be
a 10x growth in smartphone traffic between 2014 and 2020.
So how much energy is required to shunt this data to and fro? Estimates cite ICT
as being responsible for the consumption of 2% of the world’s energy, and mobile
networking making up roughly half of that. With the number of smartphones set to
more than double globally between now and 2020, that figure too is shooting up.
Fortunately five years ago an industry organisation called GreenTouch was
created by Bell Labs and other stakeholders in the space, with the object of
reducing mobile networking’s footprint. In fact, the goal of GreenTouch when it
was created was to come up with technologies reduce the energy consumption of
mobile networks 1,000x by 2015.
Today, June 18th in New York, they announced the results of their last five
years work, and it is that they have come up with ways for mobile companies to
reduce their consumption, not by the 1,000x that they were aiming for, but by
10,000x!
The consortium also announced
> research that will enable significant improvements in other areas of
> communications networks, including core networks and fixed (wired) residential
> and enterprise networks. With these energy-efficiency improvements, the net
> energy consumption of communication networks could be reduced by 98%
And today GreenTouch also released two tools for organisations and stakeholders
interested in creating more efficient networks, GWATT and Flexible Power Model.
They went on to announce some of the innovations which led to this potential
huge reduction in mobile energy consumption:
> ·
>
> * Beyond Cellular Green Generation (BCG2) — This architecture uses densely
> deployed small cells with intelligent sleep modes and completely separates
> the signaling and data functions in a cellular network to dramatically
> improve energy efficiency over current LTE networks.
> * Large-Scale Antenna System (LSAS) — This system replaces today’s cellular
> macro base stations with a large number of physically smaller, low-power
> and individually-controlled antennas delivering many user-selective data
> beams intended to maximize the energy efficiency of the system, taking into
> account the RF transmit power and the power consumption required for
> internal electronics and signal processing.
> * Distributed Energy-Efficient Clouds – This architecture introduces a new
> analytic optimization framework to minimize the power consumption of
> content distribution networks (the delivery of video, photo, music and
> other larger files – which constitutes over 90% of the traffic on core
> networks) resulting in a new architecture of distributed “mini clouds”
> closer to the end users instead of large data centers.
> * Green Transmission Technologies (GTT) – This set of technologies focuses on
> the optimal tradeoff between spectral efficiency and energy efficiency in
> wireless networks, optimizing different technologies, such as single user
> and multi-user MIMO, coordinated multi-point transmissions and interference
> alignment, for energy efficiency.
> * Cascaded Bit Interleaving Passive Optical Networks (CBI-PON) – This
> advancement extends the previously announced Bit Interleaving Passive
> Optical Network (BiPON) technology to a Cascaded Bi-PON architecture that
> allows any network node in the access, edge and metro networks to
> efficiently process only the portion of the traffic that is relevant to
> that node, thereby significantly reducing the total power consumption
> across the entire network.
Now that these innovations are released, mobile operators hoping to reduce their
energy costs will be looking closely to see how they can integrate these new
tools/technologies into their network. For many, realistically, the first
opportunity to architect them in will be with the rollout of the 5G networks
post 2020.
Having met (and exceeded) its five year goal, what’s next for GreenTouch?
I asked this to GreenTouch Chairman Thierry Van Landegem on the phone earlier in
the week. He replied that the organisation is now looking to set a new, bold
goal. They are looking the energy efficiency of areas such as cloud, network
virtualisation, and Internet of Things, and that they will likely announcement
their next objective early next year.
I can’t wait to see what they come up with next.
Mobile phone mast photo Pete S
Filed Under: energy efficiency Tagged With: cellular, communications networks,
Electricity 2.0, energy efficiency, greentouch, internet of things, iot, mobile,
mobile networks, wireless
TECHNOLOGY IS MOVING US, FINALLY, TOWARDS THE VISION OF PERSONALISED MEDICINE
May 29, 2015 by Tom Raftery
We attended this year’s SapphireNow event (SAP’s customer and partner
conference) in Orlando and were very impressed with some of the advances SAP and
their ecosystem are making in the field of healthcare.
Why is this important?
Healthcare for many decades now has been stagnant when it comes to technological
disruption. Go to most hospitals today and you will still see doctors using
paper and clipboards for their patient notes. Don’t just take our word for it,
in her highly anticipated 2015 Internet Trends report Mary Meeker clearly
identified that the impact of the Internet on healthcare is far behind most
other sectors.
2015 Internet Trends Report from Kleiner Perkins Caufield & Byers
But this is changing, and changing rapidly. The changes coming to the healthcare
sector will be profound, and will happen faster than anyone is prepared for.
And one of the main catalysts of this change has been the collapse in the cost
of gene sequencing in the last ten years. See that collapse charted in the graph
to the right. And note that the y-axis showing the cost of sequencing is using a
logarithmic scale. The costs of sequencing are falling far faster than the price
of the processing power required to analyse the genetic data. This means the
cost of sequencing is now more influenced by the cost of data analysis, than
data collection. This has been a remarkable turn of events, especially given the
first human genome was only published fourteen years ago, in 2001.
The advances in the data analytics picking up pace too. In memory databases,
such as SAP’s HANA, and cognitive computing using devices like IBM’s Watson, are
contributing enormously to this.
To get an idea just how much the analytics is advancing, watch the analysis of
data from 100,000 patients by Prof Christof von Kalle, director of Heidelberg’s
National Center for Tumor Diseases in the video below. Keep in mind that each of
the 100,000 patients has 3bn base pairs in their genome, and he’s analysing them
in realtime (Prof Von Kalle’s demo starts at 1:00:03 in the video, and lasts a
little over 5 minutes).
As he says at the conclusion, two years ago a similar study conducted over
several years by teams of scientists was published as a paper in the journal
Nature. That’s an incredible rate of change.
IBM are also making huge advances in this field with their cognitive computing
engine, Watson. In a recent announcement, IBM detailed how they have teamed up
with fourteen North American cancer institutes to analyse the DNA of their
patients to gain insights into the cancers involved, and to speed up the era of
personalised medicine.
Personalised medicine is where a patient’s DNA is sequenced, as is the DNA of
their tumour (in the case of cancer), and an individualised treatment, specific
to the genotype of their cancer is designed and applied.
This differs from the precision medicine offerings being offered today by
Molecular Health, and discussed by Dr Alexander Picker in the video at the top
of this post.
Precision medicine is where existing treatments are analysed to see which is
best equipped to tackle a patient’s tumour, given their genotype, and the
genotype of their cancer. One thing I learned from talking to Dr Picker at
Sapphirenow is that cancers used to be classified by their morphology (lung
cancer, liver cancer, skin cancer, etc.) and treated accordingly. Now, cancers
are starting to be classified according to their genotype, not their morphology,
and tackling cancers this way is a far more effective form of therapy.
Finally, SAP and IBM are far from being alone in this space. Google, Microsoft
and Apple are also starting to look seriously at this health.
With all this effort being pored into this personalised medicine, I think it is
safe to say Ms. Meeker’s 2016 slide featuring health will look a little
different.
UPDATE – Since publishing this post SAP have uploaded a video to YouTube
showcasing their internal application of Molecular Health’s solution for
employees of SAP who are diagnosed with cancer. You can see that below:
Full disclosure – SAP paid my travel and accommodation to attend their
Sapphirenow event
Filed Under: Health Tagged With: cognitive computing, hana, medical research
insights, molecular health, personalised medicine, precision medicine, SAP,
sapphirenow, watson
EQUINIX ROLLS OUT 1MW FUEL CELL FOR SILICON VALLEY DATA CENTER
May 21, 2015 by Tom Raftery
Equinix is powering one of its Silicon Valley data centers with a 1MW Bloom
Energy fuel cell
As we have pointed out here many times, the main cloud providers (particularly
Amazon and IBM) are doing a very poor job either powering their data centers
with renewable energy, or reporting on the emissions associated with their cloud
computing infrastructure.
Given the significantly increasing use of cloud computing by larger
organisations, and the growing economic costs of climate change, the sources of
the electricity used by these power-hungry data centers is now more relevant
than ever.
Against this background, it is impressive to see to see Equinix, a global
provider of carrier-neutral data centers (with a fleet of over 100 data centers)
and internet exchanges, announce a 1MW Bloom Energy biogas fuel cell project at
its SV5 data center, in Silicon Valley. Biogas is methane gas captured from
decomposing organic matter such as that from landfills or animal waste.
Why would Equinix do this?
Well, the first phase of California’s cap and trade program for CO2 emissions
commenced in January 2013, and this could, in time lead to increased costs for
electricity. Indeed in their 2014 SEC filing [PDF], Equinix note that:
> The effect on the price we pay for electricity cannot yet be determined, but
> the increase could exceed 5% of our costs of electricity at our California
> locations. In 2015, a second phase of the program will begin, imposing
> allowance obligations upon suppliers of most forms of fossil fuels, which will
> increase the costs of our petroleum fuels used for transportation and
> emergency generators.
>
> We do not anticipate that the climate change-related laws and regulations will
> force us to modify our operations to limit the emissions of GHG. We could,
> however, be directly subject to taxes, fees or costs, or could indirectly be
> required to reimburse electricity providers for such costs representing the
> GHG attributable to our electricity or fossil fuel consumption. These cost
> increases could materially increase our costs of operation or limit the
> availability of electricity or emergency generator fuels.
In light of this, self-generation using fuel cells looks very attractive, both
from the point of view of energy cost stability, and reduced exposure to
increasing carbon related costs.
On the other hand, according to today’s announcement, Equinix already gets
approximately 30% of its electricity from renewable sources, and it plans to
increase this to 100% “over time”.
Even better than that, Equinix is 100% renewably powered in Europe despite its
growth. So Equinix is walking the walk in Europe, at least, and has a stated aim
to go all the way to 100% renewable power.
What more could Equinix do?
Well, two things come to mind immediately:
1. Set an actual hard target date for the 100% from renewables and
2. Start reporting all emissions to the CDP (and the SEC)
Given how important a player Equinix in the global internet infrastructure, the
sooner we see them hit their 100% target, the better for all.
Filed Under: Cloud Tagged With: cloud computing, data center, equinix, renewable
energy
UTILITIES AND CHANGE – TIMES ARE CHANGING
May 1, 2015 by Tom Raftery
I attended this year’s International SAP for Utilities event in Berlin and
despite it’s being co-located with the SAP Oil and Gas conference which led to
some unfortunate references in the keynotes, it was an interesting event.
Some of the numbers I learned at the event were that of SAP’s 5,800 utility
customers, 65 are on HANA, and the first Suite on HANA customer (Snohomish
County Public Utility District) will go live in September.
SAP also let it be known that it has 2 utilities customers who are on their new
S4 platform. One is a net new customer, while the other is migrating so as to be
a “Utility of the Future”.
Apart from that I had conversations with several SAP Utilities customers, and I
was surprised at how utilities, who have traditionally been averse to change (65
out of 5,800 have moved to HANA), are starting to realise that technological
change is inevitable, and so are starting to embrace it. Albeit slowly.
I spoke to Khalid Al Dossary from Saudi Electricity Company (see video above)
and he told me of two projects they’ve recently rolled out. The first was a move
to paper invoicing because they want to move completely away from paper. And the
second, even more interesting was the rollout of SuccessFactors, for talent
management (HR).
Why is this interesting? Well, SuccessFactors is cloud delivered and utilities
have been seen as being cloud averse. I remember having conversations with
utilities executives who said they’d never move to cloud only two years ago.
It’s funny how time moves on.
I also spoke to Hydro Tasmania’s Rick Quarmby (see below) who talked about two
projects Hydro Tasmania rolled out recently. One using OpenText for document
management, and the other was a workforce productivity app (which you can see
the employees rave about here).
I also recall, in the mid to late nineties, having conversations with people who
said their business’ didn’t need to have a website. Or that they would rollout
email and Internet access within the company, but only to certain employees who
might need it.
Thankfully those days are long gone, and now it is unusual for organisations not
to have a website, or to block internet access for their employees.
In a similar vein, with the increasing pace of technological change, I fully
expect the vast majority of utilities to have moved fully to the cloud ten years
from now, and any who haven’t will be viewed as laggards.
Filed Under: utilities Tagged With: cloud computing, Khalid Al Dossary, s4, SAP,
sap for utilities, saudi electric company, suite on hana
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