Tag Archive for MSFT

| December 10, 2018
Comments Off on Please Take Lotus Notes

Please Take Lotus Notes

Please Take Lotus NotesIn a move to free up some cash and make room for its $34 billion acquisition of Red Hat Inc. (RHT), IBM (IBM) is selling off its enterprise software business for $1.8 billion to HCL Technologies.

Please Take NotesHCL Technologies is global services company valued at $8 billion. India-based HCL operates out of 43 countries, serving the financial services, manufacturing, telecommunications, media, publishing, entertainment, retail, and other industries.

Lotus Notes

The sale includes most of IBM’s enterprise business, including Lotus Notes and Domino collaboration software, network management software Tivoli, and other titles. Lotus Notes was developed by Mitch Kapor in 1989 and was a pioneering enterprise software tool that swept the market with features such as email and collaboration workspaces, that we now take for granted.

Lotus 1-2-3 for DOSLotus, founded in 1982, rose to fame in 1983 with the Lotus 1-2-3 spreadsheet, which drove the popularity of freshly minted IBM PC. IBM took over Lotus for the then astounding sum of $3.52 billion. IBM looked to the Lotus acquisition to change its white-shirt-and-tie culture to embrace the MTV age and the new Internet.

Lotus Notes and Domino ranked among the top client-server groupware and email systems in the 1990s, competing head-on against Microsoft Exchange. While Microsoft successfully migrated Exchange to Office 365 in the cloud, Notes and Domino largely missed the cloud era.

Lotus NotesBig Blue acquired Tivoli for $743 million in 1996. It ranked among the leading IT management software providers, competing against CA Technologies, BMC, and HP in the 1990s and early 2000s. Each of those companies stumbled in recent years — opening the door for ServiceNow to disrupt major portions of the market.

The IBM world-view

The HCL deal highlights IBM’s failure to navigate the shift from client-server to SaaS. Lotus Notes stayed a client-server system and lost business to Amazon Web Services (AWS) and Microsoft Azure and Google Cloud Platform.

Now that the business has been lost, IBM is moving in a different direction. Older software like Lotus Notes and Domino don’t really play a role in the new IBM world-view. One IBM solution provider told CRN,I can understand getting rid of Lotus Notes and Domino Microsoft Office 365 and Google Apps are killing the hell out of Lotus Notes.

In addition to Lotus Notes, Domino, and Tivoli, the IBM Software asset sale to HCL includes:

  • IBM Appscan, a security-focused application for identifying and managing vulnerabilities in mission-critical applications;
  • IBM BigFix endpoint management and security software;
  • IBM Unica, a cloud-based enterprise marketing automation software; and
  • IBM WebSphere Commerce, an omnichannel commerce platform for B2C and B2B organizations.

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While I am the PM on our move off of Notes to SaaS products like O365, every once in a while I find myself saying that Notes worked well. But then I remember that it is overly complex and proprietary. The client software is huge and bloated and lacks a simple client.

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Ralph Bach has been in IT long enough to know better and has blogged from his Bach Seat about IT, careers, and anything else that catches his attention since 2005. You can follow him on LinkedInFacebook, and Twitter. Email the Bach Seat here.

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| December 7, 2018
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IPv4 Update

IPv4 UpdateThe IPocalypse struck the United States in 2015 and three years later – nobody cares. The end of IPv4 was going to mean the Internet Protocol version 6 (IPv6) takes over the world. Well, recent updates say IPv4 is still the dominant protocol on the Internet.

IPv4 number trading between private partiesIPv4 number trading between private parties has proved to be an effective means of extending the life of IPv4 by redistributing previously allocated IPv4 numbers. Trading between private parties is very active in North America, Europe, and the Asia-Pacific regions. This has allowed IPv4 network operators to support and extend their IP networks with excess unused supply through the IPv4 market.

Janine Goodman, Vice President and co-founder of Avenue4 LLC., a Washington DC-based IPv4 broker and advisory firm posted a 2018 Q3 update on the IPv4 market for CircleID. In the update, the author noted that during Q3 of 2018 there is still a voracious appetite for IPv4 numbers – 18 million IPv4 numbers were transferred in the quarter. There were nearly 42 million IPv4 addresses changing hands in the 2018 year to date, a 160% jump compared to 2017

will not hit the 50% mark until sometime in 2020The article states that IPv6 adoption in the U.S. (based on Google user stats) fell after the beginning of the year and has yet to recover. Ms.Goodman cites predictive models which suggest that U.S. IPv6 adoption will not hit the 50% mark until sometime in 2020. Globally, IPv6 adoption has been slow, peaking at 21.5% during weekdays and 25% during weekends. The data from Avenue4 confirms that IPv4 continues to be the dominant Internet protocol.

For those firms purchasing IPv4 addresses, the most common IP block size is the /24 (256 addresses), followed by the /16 block (65,536 numbers). Nearly 90% of those /16 blocks were transferred to large block buyers. The /17 (32,768 addresses) and /18 (16,384 addresses) are also popular as large block buyers are increasingly willing to accept a collection of smaller non-contiguous ranges from sellers.

prices are being driven up by fierce competitionBlock prices will rise over the next 6-12 months. The article reports that most block sizes are north of $17.00 / number with larger blocks reaching and occasionally exceeding $20.00 / number. Avenue4 says fierce competition among large block buyers is driving unit prices up. Until this demand is met, pricing should continue to escalate. IPv4 prices were $11.25 / address when I first wrote about Microsoft’s purchase of Nortel’s IPv4 addresses in 2011.

rb-

The switch to IPv6 is being slowed by two factors. The first is network address translation (NAT) which has become better understood and implemented. The other is the evolution of the buying and selling of IPv4 addresses, led by firms like Avenue4 and IPv4 Brokers.

One of the knocks against moving to IPv6 is CAPEX and OPEX costs. But neither really holds water anymore. The data from Avenue4 says that firms are willing to pay over $1.3 million for a \16 block. Firms could leverage $1.3 million to update to IPv6.  IPv6 is fully built into modern operating systems and networking hardware. Buy the right devices during your regular update cycles.

Microsoft (MSFT) recently decided to embark on the tricky transition from IPv6 and IPv4 or ‘dual stack’ to IPv6-only, which Microsoft believes will solve its problems with IPv4 shortages and enable simpler network management.

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Ralph Bach has been in IT long enough to know better and has blogged from his Bach Seat about IT, careers, and anything else that catches his attention since 2005. You can follow him on LinkedInFacebook, and Twitter. Email the Bach Seat here.

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| November 14, 2018
Comments Off on Windows 95 – There’s An App For That

Windows 95 – There’s An App For That

Windows 95 - There's An App For ThatWith all the problems Microsoft (MSFT) Windows 10 has had lately – a few of us of a certain vintage may long for simpler days when we controlled what Windows did, not Redmond. Well, it’s time to relax because Windows 95 is now available as an app for Mac, Windows, and Linux.

The Verge writes that Slack developer Felix Rieseberg is responsible for this ingenious app. The operating system is encased in electron, a framework for building cross-platform apps with HTML and CSS.

Windows 95 desktopNow nostalgia lovers can play around with Windows 95 in an electron app. Mr. Rieseberg has published the source code and app installers for this project on Github, and classic apps like Solitaire, Wordpad, phone dialer, MS Paint, and Minesweeper all run as you’d expect. Sadly, Internet Explorer isn’t fully functional as it simply refuses to load pages. It does have floppy disk support.

As Mr. Rieseberg suggests, if you were hoping to run Doom, you’re probably better off doing it through an actual virtualization app, but it surprisingly does work. He admits it only worked well “by accident and was mostly a joke.”

The app is only 129MB in size. Once it’s running it surprisingly only takes up around 200MB of RAM, even when running all the old Windows 95 system utilities, apps, and games. If you run into any issues with the app you can always reset the Windows 95 instance inside the app and start over again.

Enjoy this trip down memory lane.

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OK – Cut Windows 95 some slack, the 20something-year-old OS is the first step-up from 16-bit DOS to 32-bit Windows NT. But more importantly, it introduced the Windows graphical user interface that so many of us have a love/hate relationship with.

As you’d figure, running Windows 95 these days is mostly just for a laugh. Windows 95 is still popular after 20 years. The OS has appeared on the Apple Watch, Android Wear smartwatch, and even the Xbox One.

 

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Ralph Bach has been in IT long enough to know better and has blogged from his Bach Seat about IT, careers, and anything else that catches his attention since 2005. You can follow him on LinkedInFacebook, and Twitter. Email the Bach Seat here.

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| September 15, 2018
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What is Quantum Computing?

What is Quantum Computing?The world of theoretical physics has been the domain of geniuses like Stephen Hawking and fictional characters such as The Big Bang Theory’s Sheldon Cooper. But now companies like Google (GOOG), IBM (IBM), and Intel (INTC) are building quantum computer systems, that may soon outperform even the fastest supercomputers in the world. So, it’s a good time to learn some basic quantum computing terms and concepts.

It’s physics

Quantum mechanicsQuantum Computing is based on Quantum Physics. Quantum Physics is the arm of modern physics that explains the nature and behavior of matter and energy on the atomic and subatomic levels. It is also called quantum theory and quantum mechanics. Quantum computers use quantum physics to compute.

Before quantum physics, “classical” physics explained the world around us (calculations of speeds, rotations, weights, forces …).  Then came Einstein who explained the “infinitely large”, the universe, time, big bang, black holes… But the classic mechanics did not explain everything and this is where quantum physics, steps in. The world of atoms, the infinitely small, does not work like the world that we, humans, see every day. The algebra story problems about a ball bouncing off a wall at 37 degrees and landing 43 feet away no longer apply in the world of quantum physics. Quantum computing devices use these newly discovered properties to perform computations using quantum bits, or qubits.

Classical computers

EinsteinPierre Pinna at IPFCOnline explains that the “classical” computer sitting on your desk, manipulates information (software, texts, pictures, videos, etc.). Inside your laptop, this information is made up of “1” and “0”. All computers have one (or more) micro-processors that manipulate the “0” and “1”, by applying the basic operations (addition, subtraction, multiplication) to “order” the 1’s and 0’s into software, texts, pictures, videos, etc.

The 1’s and 0’s are physically created by electric current inside transistors. Each transistor can be on or off, which indicates the 1 or 0 to be used to compute the next step in a program.

When the transistor is open, the electric current does not pass through the transistor and we say that we are in the state “0” and conversely if the transistor is closed, the electrical current can pass through it, we are in state “1”. The transistors inside the CPU can be combined into logic gates to perform logic operations like “OR”, “XOR”, “AND.” The classical computers 1’s and 0’s are called “bits.”

Quantum computers

Quantum bitsQuantum computers also handle “1” and “0” just like your laptop. But the information is no longer manipulated by transistors but by atomic and subatomic particles (electrons, protons, ions, photons, neutrons, etc.). You know, the stuff they taught in Mr. Birchmeier’s high school science class. Quantum computers don’t use bits; they use quantum bits (qubits). And that’s where quantum computing gets interesting – the subatomic world does not work like the physical world we live in.  Quantum physics explains how the subatomic world works.

Tristan Greene at TNW writes that qubits have extra functions that bits don’t. Instead of only being represented as a 1 or 0, qubits can actually be both at the same time. Mr. Greene writes that qubits, when unobserved, are considered to be “spinning.” Instead of referring to these types of “spin qubits” using ones or zeros, they’re measured in states of “up,” “down,” and “both.”

This lab at IBM houses quantum machines connected to the cloud.

The IPFCOnline article explains that to better understand all of this, we must see each particle as a wave and not a single physical element. The particles are then characterized by their “spin” to create a state called superposition.

Mr. Greene at TNW writes that quantum superposition in qubits can be explained by flipping a coin. We know that the coin will land in one of two states: heads or tails. This is how classical computers think. While the coin is still spinning in the air, the coin is actually in both states at the same time. Essentially until the coin lands, it has to be considered both heads and tails simultaneously.

Quantum computing use superposition

Observation theorySuperposition is based on Observation theory. Observation theory basically says the universe acts one way when we’re looking, another way when we aren’t. Mr. Pinna at IPFCOnline writes that with superposition, while we do not know what the state of any object is, it is actually in all possible states simultaneously, as long as we don’t look to check. To illustrate this theory, we can use the famous and somewhat cruel analogy of Schrodinger’s Cat using a cat in a box as being both alive and dead at the same time.

All of these sub-atomic activities make the quantum computer very sensitive to disturbances from the outside world. When quantum computers are disturbed they become unstable, and revert to “classical computers.” In order to keep the quantum properties of the system, it must be protected from the outside world. According to the article, this is typically done by cooling the quantum computer to temperatures very close to absolute zero (-273.145°C – colder than in space). Another factor when working with qubits is noise. The more qubits a system has, the more errors you get.

All of these factors make working with qubits incredibly difficult. These challenges are made worse by the unsustainable amount of electricity currently needed to generate quantum computing results. Reports are that one quantum computer burns about 20 megawatts of electricity — enough to power 20,000 households.

Therefore, the current state-of-the-art quantum computing theoretical speed gain is limited by the cost, size, and instability of the system. Right now, quantum computers aren’t worth the trouble and money they take to build and operate. A quantum computer is not going to run MS Word on your desktop.

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Ralph Bach has been in IT long enough to know better and has blogged from his Bach Seat about IT, careers, and anything else that catches his attention since 2005. You can follow him on LinkedInFacebook, and Twitter. Email the Bach Seat here.

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| August 4, 2018
Comments Off on Happy Birthday to IPv6

Happy Birthday to IPv6

Happy Birthday to IPv6You are forgiven if you missed IPv6’s birthday (I did). The next-generation network addressing scheme turned 6 years old back in June. June 06, 2012, was World IPv6 Launch Day when everybody was supposed to permanently enable IPv6 on their networks. The results – not so good. There are global highlights but 3/4’s of internet users still regularly connect to the Intertubes over legacy IPv4.

The Internet Society rightly points out that enterprise operations tend to be the “elephant in the room” when it comes to IPv6 deployment. If only 26% of networks advertise IPv6 autonomous system prefixes, 74% do not. Most of the 3/4ths not using IPv6 are likely to be enterprise networks.

Enterprises have traditionally been reluctant to embrace IPv6 — there has been no real need to implement it, with many seeing it as an additional cost and risk with no direct use for their daily business.  Cost can include monetary assets, but also people and time

IPv6Migrating to IPv6 will be hard. The migration will involve all departments of the organization and every piece of equipment connected to the network. Then consider that the migration will be made over time and that everyone needs to be on the same page working together for the best outcome and smoothest transition.

Legacy systems can be defined basically as older systems. They likely are missing some common functionality from current technology, but still exist because they perform a key or important function for the organization just fine, thus there is no reason to replace it. However, this attitude is starting to change.

Microsoft logoLarger and more tech-savvy enterprises are forging innovative paths forward. CircleID points out Microsoft (MSFT), which made one of the first publicly announced purchases of IPv4 address space, reportedly purchasing 666,000 addresses at $11.25 per address in 2011. In a recent blog, Microsoft described the steps is taking to turn off IPv4 and become an IPv6-only company. Their description of their heavily translated IPv4 network includes phrases like “potentially fragile”, and “operationally challenging”, and about dual-stack operations, “complex”.

Outside of the enterprise space, there’s still the rest of the Internet that needs to make the migration. According to the stats in the article, the top carriers in the U.S. still carry less than half of the IPv6 traffic that the Indian ISP Reliance Jio carries. The Internet Society takes the happy view that the excuse that “no one is doing IPv6” is gone. For many people and networks, IPv6 is the new normal and is the future of Internet connectivity.

Some of the highlights for IPv6 are:

  • 237 million people in India connect over IPv6.
  • Mobile operators are adopting IPv6, some have over 80 or 90% of their devices connecting over IPv6.
  • 28% of the Alexa Top 1000 websites are IPv6-enabled.

ISOC - State of IPv6 Deployment 2018

 

National mobile networks are driving the global adoption of IPv6. Some mobile networks are taking the step to run IPv6-only to simplify network operations and cut costs. Japan and India are leaders in IPv6 adoption.

Reliance JIOThe Indian wireless carrier Reliance Jio has an 87% IPv6 rate.

In Japan, the top three wireless carriers are:

U.S. wireless carriers are deploying IPv6 also:

Many home and business users get Internet connectivity from broadband ISPs. Many broadband ISPs have deployed IPv6 on their networks. They send the majority of their traffic over IPv6 to major content providers. For example, Comcast (CMCSA), the largest broadband ISP in the U.S. is actively deploying IPv6. Per the World IPv6 Launch website, Comcast has an IPv6 deployment measurement of over 66%. Globally broadband ISPs are also deploying IPv6.

The following table from the Internet Society lists the top IPv6 carriers based on the number of users.

RankISPCountryIPv6 Users (estimated)
1Reliance JioIndia237,600,764
2ComcastUnited States36,114,435
3AT&TUnited States22,305,974
4Vodafone IndiaIndia18,368,165
5Verizon WirelessUnited States15,422,684
6Idea CellularIndia14,681,694
7Deutsche Telekom AGGermany14,261,836
8T-Mobile USAUnited States14,057,105
9KDDI CorporationJapan11.871,952
10Sky BroadbandGreat Britian11,829,610
11ClaroBrazil10,235,805
12SoftbankJapan8,613,145
13OrangeFrance7,924,119
14AT&T WirelessUnited States7,694,881
15Cox CommunicationsUnited States6,316,462
16Kabel DeutschlandGermany5,835,590
17SK TelecomKorea5,764,073
18NTT CommunicationsJapan5,596,206

 

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Ralph Bach has been in IT long enough to know better and has blogged from his Bach Seat about IT, careers, and anything else that catches his attention since 2005. You can follow him on LinkedInFacebook, and Twitter. Email the Bach Seat here.

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