Showing posts with label Technology. Show all posts
Showing posts with label Technology. Show all posts

Wednesday 10 July 2013

Green Scenarios In Germany

What a brilliant article on renewable energy production in Germany. Small Producers account to about 21% of total electricity production in Germany. Germany's investment into green energy is staggeringly huge, huger than china and the U.S which puts it at the numero uno position. Germany gets the same sunlight as Alaska as a fact!!. More here.

Wednesday 17 April 2013

The Smartphone Story–In Pictures, because It’s worth a thousand words!!

Topic :- What has the today’s smart phone replaced and going to replace?

[080804 BU 1C MO]  Automatic IPTC

 

50Things


201207_blog_tupy121sm



top10millionmobileclub

chinasubscribers

deviceshipments
top10mobiledevices

marketpenetration

topsalesworldwide

osshare

bymanufacturer&os

tablets&ereadersforecast

toptenoperatorgroups

nodemandsituation
References
1. MIT Technology Review
2. Mashable
3. Mobile Stats

All views expressed are not biased towards a single product or technology, it’s the author’s experiment to aggregate data and statistics from various sources. The author does not take responsibility in the accuracy of data and stats. – Sudhir Murthy © 2013.

Tuesday 16 April 2013

TOGAF

TOGAF®, an Open Group Standard, is a proven enterprise architecture methodology and framework used by the world's leading organizations to improve business efficiency. It is the most prominent and reliable enterprise architecture standard, ensuring consistent standards, methods, and communication among enterprise architecture professionals.TOGAF helps practitioners avoid being locked into proprietary methods, utilize resources more efficiently and effectively, and realize a greater return on investment.[1]

One of the goals of The Open Group Architecture Forum is to provide a forum within which both customer and vendor organizations can exchange feedback and experience in the use of TOGAF.

First published in 1995, TOGAF was based on the US Department of Defence Technical Architecture Framework for Information Management (TAFIM). From this sound foundation, The Open Group Architecture Forum has developed successive versions of TOGAF at regular intervals and published them on The Open Group public web site. (link) [2]

You can start by reading the case studies which shows TOGAF in use in a variety of situations. [3]
It is important to emphasize that no case study can provide a complete blueprint for how another organization should go about using TOGAF. All organizations are different, and each organization should understand what TOGAF has to offer, and adopt and adapt the parts that are useful for its needs.

References
1. The Open Group
2. Publications
3. Case Studies

Monday 15 April 2013

Multicore Processors – Then , Now And Beyond..

 

galaxy-s4-htc-one-crystal-balldownload (1)download (2)download (3)

The day when HTC first released the windows pocket pc circa 2003 (XDA II) !!..I still remember fiddling around with Windows CE and .Net Compact Framework. I had even implemented a double buffering mechanism for rendering sprites on Windows Mobile (The complete source c0de of which is still available on my blog). The computing power on phones these days put all those things to shame. I now play GTA 3 on my iPhone effortlessly!!. Back in 2003, I had to buy a decent graphics card [PCI Express] for my PC in order to be able to support the massive area this game rendered as and when you explored the city..

Now, the smart phones Samsung Galaxy S4 V/s the HTC One is the battle for the quad core + category of smartphones today ( at the time of publishing this article.) [17].  Multicore processor products  today also include Apple’s iPad 3 with quad core for graphics and dual core for processing, XBox with 3 IBM Xenon Cores, Microsoft Surface with Quad-core NVIDIA Tegra 3 etc to name a few.

Why are multicore processors becoming so common these days ?. What is the future beyond multi core processors ?

Lets take a look at a bit of history on multicore processors now. From early 2007 onwards, we knew that Moore's law [1] was coming close to an end and that the era of parallel programming had begun to take shape with transistors not necessarily doubling but we began to see more cores instead. Now, why did this happen ?, Why didn’t the transistor count double on the same chip ?.
moores_law_chart  

As the microprocessor manufacturers tried to improve processor performance by adding transistors and logic to their CPU’s and increase clock frequencies, so did rise the complexity and the cost of manufacturing. The semiconductor industry had predicted that the clock rates would reach 12GHz by 2013.Take the Intel’s Pentium Processor for instance. The Intel's troubled Pentium processor so clearly illustrated, the laws of nature and diminishing returns were catching up to the Law of Moore. The complex logic required to implement execution pipelines and other throughput techniques required lots of expensive silicon real estate and were highly prone to post-manufacture errors, according to the SciDAC report.[2]

Let’s look at another example, Intel’s Tejas Processor – which was getting built as the successor to it’s Pentium 4 class of processors. As they tried to increase the clock speed, the power consumption started to increase to 100 watts(TDP). This was a big issue, since power draws more ampere as they are pushed to multi-gigahertz clock speeds, eating up wattage and becoming difficult to cool with conventional heat-sink technology. A processor with this specification was not just viable to produce.[3]

It was clear to chip makers that it was becoming exceedingly impractical (and sometimes impossible) to verify all that complex logic; the cost of these designs was reaching into the hundreds of millions of dollars. The SciDAC report cited "A View of the Parallel Computing Landscape,” a paper published in 2006 by a team of computer scientists from Lawrence Berkeley National Laboratory (LBNL) and the University of California (UC), Berkeley. The Berkeley scientists offered the following solutions for these processor issues: [2]

Power: Parallelism is an energy-efficient way to achieve performance. Many simple cores offer higher performance per unit area for parallel codes than a comparable design employing smaller numbers of complex cores.

Design Cost: The behaviour of a smaller, simpler processing element is much easier to predict within existing electronic design-automation workflows and more amenable to formal verification. Lower complexity makes the chip more economical to design and produce.

Defect Tolerance: Smaller processing elements provide an economical way to improve defect tolerance by providing many redundant cores that can be turned off if there are defects.[2]

Soon after, Chip manufacturer’s like Intel were clear from their experiments / experiences and tests that the future of computing was heading to multi-cores. Paul Otellini, Intel’s President announced (circa 2004)that “All of our microprocessor development going forwards is multi-core. We’ll add multi-cores into all products – notebooks, desktops and servers.”. The idea to parallelize existing tasks or to divide up multiple tasks to gain efficiency had caught up. Microsoft was keen to capitalize on multicore technology and it went ahead with this strategy on big scale shipping Windows code named Longhorn (Vista) operating system which supported it.[3]

With Intel, This direction of multi-core eventually development led to the birth of the Arrandale range of processors. Arrandale is the codename for a two core mobile processor used on the Intel 5 series chipset based platforms codenamed Calpella. Arrandale is comprised of a 32nm processor core and 45nm graphics & memory controller integrated in a multi-chip package. Arrandale is part of the family of 32nm processors codename Westmere based on Intel microarchitecture codename Nehalem and targeted for production in 4Q'09, with availability in 1Q'10. Check this table below to see the TDP’s of the Arrandale range of processors. [4]

Product Name                        Status    Embedded                     Recommended
Options Available Max TDP Customer Price
-----------------------------------------------------------------------------------------------
Intel® Pentium® Processor U5600 Launched No 18 W N/A
(3M Cache, 1.33 GHz)
Intel® Pentium® Processor U5400 Launched No 18 W N/A
(3M Cache, 1.20 GHz)
Intel® Pentium® Processor P6300 Launched No 35 W TRAY: $134.00
(3M Cache, 2.27 GHz)
Intel® Pentium® Processor P6200 Launched No 35 W TRAY: $134.00
(3M Cache, 2.13 GHz)
Intel® Pentium® Processor P6100 Launched No 35 W TRAY: $134.00
(3M Cache, 2.00 GHz)
Intel® Pentium® Processor P6000 Launched No 35 W N/A
(3M Cache, 1.86 GHz)
Intel® Core™ i7-680UM Processor Launched No 18 W N/A
(4M Cache, 1.46 GHz)
Intel® Core™ i7-660UM Processor Launched No 18 W TRAY: $289.00
(4M Cache, 1.33 GHz)
Intel® Core™ i7-660UE Processor Launched Yes 18 W TRAY: $301.00
(4M Cache, 1.33 GHz)
Intel® Core™ i7-660LM Processor Launched No 25 W N/A
(4M Cache, 2.26 GHz)
Intel® Core™ i7-640UM Processor Launched No 18 W N/A
(4M Cache, 1.20 GHz)
Intel® Core™ i7-640M Processor Launched No 35 W N/A
(4M Cache, 2.80 GHz)
Intel® Core™ i7-640LM Processor Launched No 25 W N/A
(4M Cache, 2.13 GHz)
Intel® Core™ i7-620UM Processor Launched No 18 W N/A
(4M Cache, 1.06 GHz)
Intel® Core™ i7-620UE Processor Launched Yes 18 W TRAY: $289.00
(4M Cache, 1.06 GHz)
Intel® Core™ i7-620M Processor Launched Yes 35 W TRAY: $332.00
(4M Cache, 2.66 GHz)
Intel® Core™ i7-620LM Processor Launched No 25 W TRAY: $300.00
(4M Cache, 2.00 GHz)
Intel® Core™ i7-620LE Processor Launched Yes 25 W TRAY: $311.00
(4M Cache, 2.00 GHz)
Intel® Core™ i7-610E Processor Launched Yes 35 W TRAY: $320.00
(4M Cache, 2.53 GHz)
Intel® Core™ i5-580M Processor Launched No 35 W N/A
(3M Cache, 2.66 GHz)
Intel® Core™ i5-560UM Processor Launched No 18 W N/A
(3M Cache, 1.33 GHz)
Intel® Core™ i5-560M Processor Launched No 35 W N/A
(3M Cache, 2.66 GHz)
Intel® Core™ i5-540UM Processor Launched No 18 W TRAY: $250.00
(3M Cache, 1.20 GHz)
Intel® Core™ i5-540M Processor Launched No 35 W TRAY: $257.00
(3M Cache, 2.53 GHz) BOX : $269.00
Intel® Core™ i5-520UM Processor Launched No 18 W N/A
(3M Cache, 1.06 GHz)
Intel® Core™ i5-520M Processor Launched Yes 35 W TRAY: $225.00
(3M Cache, 2.40 GHz)
Intel® Core™ i5-520E Processor Launched Yes 35 W TRAY: $224.00
(3M Cache, 2.40 GHz)
Intel® Core™ i5-480M Processor Launched No 35 W N/A
(3M Cache, 2.66 GHz)
Intel® Core™ i5-470UM Processor Launched No 18 W N/A
(3M Cache, 1.33 GHz)
Intel® Core™ i5-460M Processor Launched No 35 W N/A
(3M Cache, 2.53 GHz)
Intel® Core™ i5-450M Processor Launched No 35 W TRAY: $210.00
(3M cache, 2.40 GHz)
Intel® Core™ i5-430UM Processor Launched No 18 W N/A
(3M cache, 1.20 GHz)
Intel® Core™ i5-430M Processor Launched No 35 W N/A
(3M Cache, 2.26 GHz)
Intel® Core™ i3-390M Processor Launched No 35 W TRAY: $225.00
(3M Cache, 2.66 GHz)
Intel® Core™ i3-380UM Processor Launched No 18 W TRAY: $250.00
(3M Cache, 1.33 GHz)
Intel® Core™ i3-380M Processor Launched No 35 W TRAY: $225.00
(3M Cache, 2.53 GHz)
Intel® Core™ i3-370M Processor Launched No 35 W TRAY: $210.00
(3M cache, 2.40 GHz)
Intel® Core™ i3-350M Processor Launched No 35 W TRAY: $225.00
(3M Cache, 2.26 GHz)
Intel® Core™ i3-330UM Processor Launched No 18 W N/A
(3M cache, 1.20 GHz)
Intel® Core™ i3-330M Processor Launched No 35 W TRAY: $225.00
(3M Cache, 2.13 GHz)
Intel® Core™ i3-330E Processor Launched Yes 35 W TRAY: $177.00
(3M Cache, 2.13 GHz)
Intel® Celeron® Processor U3600 Launched No 18 W N/A
(2M Cache, 1.20 GHz)
Intel® Celeron® Processor U3405 Launched Yes 18 W TRAY: $134.00
(2M Cache, 1.07 GHz)
Intel® Celeron® Processor U3400 Launched No 18 W N/A
(2M Cache, 1.06 GHz)
Intel® Celeron® Processor P4600 Launched No 35 W TRAY: $86.00
(2M Cache, 2.00 GHz)
Intel® Celeron® Processor P4505 Launched Yes 35 W TRAY: $86.00
(2M Cache, 1.86 GHz)
Intel® Celeron® Processor P4500 Launched Yes 35 W TRAY: $86.00
(2M Cache, 1.86 GHz)

 

Well, Intel had by then successfully reduced the size of it’s processors to 32nm in order to gain efficiency on the Core i3, i5 & i7 multicore processors. All of them gave good results and are mostly seen on many laptops today including the Mac. [5]

And now, with the Ivy Bridge Chip [6], Intel has released a set of powerful and power efficient processors to be produced from it’s 22nm process built with the revolutionary 3-D Tri-gate technology [7]. With this triple-gate transistor [9], Intel has reinvented the technology that powers every computing device -- indeed, all of today's electronics -- and in doing so, has broken the size restrictions currently inherent in today's microprocessors. The breakthrough is not so much the Tri-Gate technology, which was first unveiled by Intel in 2002. What's significant is that the company has developed a process for mass-producing the circuits in a process that's 22 billionths of a meter thick, about a third thinner than the 32-nm process it uses for Sandy Bridge microprocessor architecture. [8] (a human hair is about 100,000-nm thick)

According to an Intel announcing the news [10], Intel's 3-D Tri-Gate transistors will operate at lower voltage and with lower leakage. "The additional control enables as much transistor current flowing as possible when the transistor is in the 'on' state (for performance), and as close to zero as possible when it is in the 'off' state (to minimize power), and enables the transistor to switch very quickly between the two states." With performance increases according to claims of as much as 37 percent compared with 32-nm planar-transistor devices and consuming less than half the power, the new parts will be highly suited to small handheld devices such as smartphones, medical devices, media players, portable gaming systems and anything that can benefit from the ability to switch quickly between high performance and low power consumption. In essence, everything these days.[11]

This capability will no doubt benefit Microsoft Surface for Windows 8, a full-featured tablet that's built around Ivy Bridge. Perhaps more impressive is the Surface for Windows RT, which will incorporate Nvidia Tegra 3 quad-core processor. Technically considered to be a system-on-chip, the Tegra 3 casts four 1.4GHz Cortex A9 cores on the die along with a fifth low-power core that can perform all functions during device standby. The Tegra 3 system-on-chip also includes a GeForce GPU with as many as 12 graphics processor cores and supports a maximum resolution of 2,560 x 1,600 pixels. Google’s Nexus 7 tablet also will feature the Tegra 3.[13]


Intel’s MIC (Many Integrated Core) [12]  puts 32 cores on a single chip and makes them available for highly parallel applications in high-performance computing such as those for climate simulation, energy research and genetic analysis. According to Intel, Developers applications written in standard programming languages can still take advantage of these extremely high levels of application performance. Code-named Knights Ferry, the Intel MIC boards are even being experimented with to run applications that use cloud-based ray tracing, a compute-intensive light rendering technique used in video games that's currently limited to dedicated, high-end graphics processors. This allows laptops, smartphones and other lightweight computing devices to experience sophisticated games without a heavy GPU. Once such a technology becomes mainstream, tasks that were once the province of supercomputers will be available from the average smartphone.


Now, Let’s take a look at how ARM Processors having been shaping the mobile [14] / hand-held low powered devices which noticeably starting from the iPhone in 2007. Apple's A4/A5/A5X, Nvidia's Tegra, Samsung's Exynos and Texas Instruments' OMAP products all integrate ARM processors into what is known as a system-on-a-chip (SoC). SoCs merge many of the essential components of a computer (such as the CPU, RAM, ROM etc.) on a single chip which allows devices that utilize them to be lightweight and compact. These SoCs have gone on to be implemented in blockbuster products such as Apple's iPhone and iPad or Samsung's series of Galaxy phones. ARM's presence as the CPU and architecture of choice on many mobile devices cannot be understated as estimates put their numbers in the billions.


What’s Qualcomm brewing?, Qualcomm considers Snapdragon [18] a "platform" for use in smartphones, tablets, and hand helds.Snapdragon is a family of mobile system on chips (SoC). The original Snapdragon CPU, dubbed Scorpion, is Qualcomm's own design. It has many features similar to those of the ARM Cortex-A8 core and it is based on the ARM v7 instruction set, but theoretically has much higher performance for multimedia-related SIMD operations.The successor to Scorpion, found in S4 Snapdragon SoCs is named Krait and has many similarities with the ARM Cortex-A15 CPU and is also based on the ARMv7instruction set.All Snapdragon processors contain the circuitry to decode high-definition video (HD) resolution at 720p or 1080p depending on the Snapdragon chipset. Adreno, the company's proprietary GPU technology, integrated into Snapdragon chipsets (and certain other Qualcomm chipsets) is Qualcomm's own design, using assets the company acquired from AMD. The Adreno 225 GPU in Snapdragon S4 SoCs adds support for DirectX 9/Shader Model 3.0 which makes it compatible with Microsoft's Windows 8.Compared to System on chips from many competitors, Snapdragon SoCs have been unique in that they have had the antenna for cellular communication on-die. That is, they do not require a separate external antenna on the PCB. Since Snapdragon S4, the majority of S4 SoCs also features on-die Wi-Fi, GPS/GLONASS and Bluetooth basebands. This integration reduces the complexity and cost of the final design for the OEM. It also has the advantage of benefiting from advancements made in the manufacturing process, for example 28 nm in most S4 SoCs, thus providing antennas and other dedicated circuitry with lower power characteristics than external chips manufactured with older processes.


AMD—unable to mimic this success in more recent years, has shifted their focus towards both enthusiast and budget-oriented system configurations. As a result, AMD is considered to be a viable alternative to Intel. Their current offerings are flanked by the Phenom series processors and Fusion APU processors. The Fusion APU (AMD A-Series) is a relatively new platform (as of 2011 and on going) that attempts to merge high-end graphical capabilities on the same chip as the processor. This means if your work or play requires a powerful graphics card, then AMD can potentially offer a cost effective alternative.[16]


The Future Of ComputingQuantum Theory or Atomic Physics. My previous blog post and thoughts on the future of  nano-technology, it’s constraints and how the future could take shape with Quantum Theory (with respect to Computing).


References


1. Moore’s law
2. crn.com
3. Intel’s Tejas Processor
4. Arrandale
5. Benchmarks for products with Arandale

6. Ivy Bridge Chip
7. Making of the Intel Chip, 22nm / 3D Transistors , PDF

8. Pentium flaws aid Intel in Sandy Bridge
9. Intel’s 3D Transistors
10. Intel reinvents transistors using new 3-D structure
11. Intel’s 3-D Transistor explained
12. Intel MIC
13. NVIDIA Tegra 4
14. ARM – Cortex , 2007 Annual Report
15. Mobile Virtualization
16. Intel, AMD & ARM Processors – Comparison

17.
 Galaxy S4 Vs HTC One
18. Qualcomm Snapdragon Processors


All views expressed here are a study based on my interest and not biased towards a product or company. – Sudhir Murthy.  2013.

Friday 12 April 2013

SimCity on Mac

Gamers who have bought the SimCity for Windows, will get free access to the mac version and vice versa. This is something to look forward to in June.

Tuesday 15 January 2013

VPS Hosting

I'm Checking out the VPS Windows hosting option with #Arvixe.

I use Azure as well. I need to maximise my #Windows #Azure hosting services coupled with the #WebSpark program offerings. Windows Azure is a great platform. I'm equally excited about my VPS because its going to be hosted on Windows Server 2012. I have plans to leverage cloud services from the Windows Server with my #Azure account.

I sometimes get a feeling that Microsoft may be biting into the profits of the hosting companies providing custom VPS / Dedicated server hosting options. As Azure gains momentum, more and more hosting companies, especially with the VPS/ dedicated server segment offerings will start taking a hit.. Lets wait and watch. Azure Rocks , so does Windows VPS hosting !!

Monday 14 January 2013

Science Fictions To Science facts

27 Science fiction that turned to facts in 2012

http://myscienceacademy.org/2013/01/03/27-science-fictions-that-became-science-facts-in-2012/

Blog

Blogging from an iOS device..Whoo Hoo!!

Tuesday 11 December 2012

RSM–Richard M Stallman declared Ubuntu Linux to contain Spyware..

Stallman announced a few days back that the Amazon search in the new Ubuntu 12.10 Linux distribution contains spyware in that the search results were given by Ubuntu to amazon and amazon customizes its user ads based on the search results.[here]

Now, open source is

  • keeping pace with technology..
  • adding features that not just enthusiasts would use but much more accessible to the wider world..
  • is competitive with proprietary software..
  • supports enterprise class features..

All that is good, but, if it lacks privacy, then home uses wouldn’t be encouraged to use it, will they or is it acceptable ? Well, when every single thing that we do on the internet can be collected and mined these days, should we not allow open source to be free, afterall it’s about the freedom according to Stallman aka RMS.

On another note, I can imagine the data crunching mechanisms that amazon would have used to to this.We can clearly see another instance of big data in action here.

Well, what has the world come down to..freedom or no freedom, it’s the way you see it..

Sunday 9 December 2012

The End of Moore’s Law..

 

Computing is getting faster by the day. Physicists predict Moore’s law is going to come to an end as early as 2020. This is primarily because when Moore’s law was first coined in the 1965’s, The scientist Gordon E. Moore had considered cramming more components into IC’s (Integrated Circuits) and thus giving an average doubling speed of 18 months. i.e Raw computing power doubles up every 18 months. Nano-Technology advances makes it possible to cram more transistors into the same space that existed 18 months ago., thus making computing power to double every 18 months..This also means that machines get leaner and meaner by the day. Now, as this process continues to happen, this integration brings about a huge leap in electronics pushing science to its limits every day. Nanotechnology will soon get us to a point in time where transistors are 5 atoms wide. Theoretical Physicist Michio Kaku [ Physics of the Future, Michio Kaku] argues that laws of physics are going to change the way the computing is going to be done again. By about 2020, transistors are going to become so small that quantum theory or atomic physics will take over.

Now, Here’s why.

When we get to the juncture of building transistors which are 5 atoms wide, the Heisenberg uncertainty principle comes into play, which states that you cannot know both the position and velocity of any particle, which means we cannot know where an electron is, and therefore cannot be confined to a wire causing a circuit to short circuit. Interesting enough, New paradigms of quantum computing are going to give way to a whole new world of developing IC’s..[More Here]. The challenge that researchers are facing now is to build a single atom transistor as a fundamental quantum computer that works by controlling the electrons and quantum information or qubits.

Whilst people at Intel think that the end of Moore’s law is at least 10 years away, Some scientists find it hard to even believe that this would be ever possible. We shall soon find out the answer..

Tuesday 27 September 2011

Sudhir Murthy is back!

It's been a while since i've blogged now.

I am intending to make a come back with lots of rablings on Technology particularly ASP.Net, MVC, Ajax, jQuery, Web Application Architecture, Application Security, Azure, App Fabric, SQL Server, Disaster Recovery and Data Contigency Planning with SQL Server 2008, Parallel Processing, .Net BCL, F#, Windows 8 , HTML5, Software testing with Visual Studio, MSF Agile and Scrum with TFS, Music and everthing that i've been upto for some time now.. Watch this space..

Thursday 5 May 2011

Shale Gas - An alternative to Renewable ?

Shale Gas is natural gas produced from shale.(a type of rock). Analysts predict that Shale Gas has the potential to greatly expand worldwide energy supply.

There are ongoing debates on turning to Shale gas production over Renewable Energy (green). I found an interesting read on the guardian here. Also, Some facts and figures on shale gas.

Android Tablets - A Comparison



As the surge of the android tablets begin this year, I guess more and more people will be looking into
buying an android tablet over the iPad. Found this interesting comparison chart of  The Motorola Xoom, The Samsung Galasy Tab 10.1, The Asus Eee Pad Transformer , the LG G-Slate (Optimus Pad) and the Acer Iconia A500.

Friday 19 November 2010

Google, When can i get Indic Font Support on my HTC Desire ?

HTC_Desire_multiview_h1

It is such a shame that at the time of writing this, Google has not officially enabled Indic Font Support on Android, Guess??, Limited multilingual support from Android. What a shame!!!. I tried a hack to get around this by installing a kannada TTF font. You can expect the obvious, glyphs are not rendered correctly.

I was of the opinion that the TTF fonts were missing, NO, the fault is with the rendering mechanism on android ?, Wondering could it be because some of the Indic Fonts also require custom rendering support from the OS. I STILL Can’t believe Google missed Indic Font Support. Google needs to add Indic font support soon, It’s going to loose out big time in Indian markets!., C’mon, There is a dev lab in Bangalore, India!!!

Wake up Google!!

Issues

http://code.google.com/p/android/issues/detail?id=4153

http://code.google.com/p/android/issues/detail?id=5925

Thursday 18 November 2010

Data is the key to unlock Humanities Riches!

illusion
This statement could be so taken for granted !
Well,
I was reading NY Times today and couldn’t stop thinking about the possibility of making sense of this all.
What could be a bigger scientific experiment than exploring the humanities ?
‘Members of a new generation of digitally savvy humanists argue it is time to stop looking for inspiration in the next political or philosophical “ism” and start exploring how technology is changing our understanding of the liberal arts. This latest frontier is about method, they say, using powerful technologies and vast stores of digitized materials that previous humanities scholars did not have.’ -  More Here
The two key words i was after were ‘Quantification’ and ‘Interpretation’. Quantification will make much sense for a computational scientist (like me) However, it can be argued that proper Interpretation also plays a vital role., for which an enormous computing infrastructure mainly centred around data crunching will be absolutely invaluable!
It’s worthy to note that ‘The humanities and social sciences are the emerging domains for using high-performance computing’.
Ancient to modern languages, Logic (the next thing which comes to my mind) , Literature, Law , History, Philosophy, Religion, Visual and Performing Arts, Music, Anthropology, Linguistics, Cultural Studies. Now, that’s an ennnnnnnnnormoussss list!. I don’t think an entire lifetime is enough to quantify and interpret that sort of an experiment!!, But with advances in distributed computing, This is merely a truth proposition.
799px-SwansCygnus_olordeepavalidostoevskyDurgasthamaanagodfatherhampi1imagesSHANKARACHARYA0shringeri1sringeri_vidyashakaraveena
Questions which could be answered.

  • Did the ‘Fountainhead of Indian ‘Logic’ Intellect come from its cultural roots’ ?
  • Did Pythagoras come to India to learn ‘Logic’ ?
  • How were the ragas born ?, Are the ragas mathematically a complex hash function of frequencies ?, How did such complex mathematical function get rooted into a  seemingly divinity biased Carnatic music ?
  • How did western musical instruments evolve in India ? Violin , Saxaphone ?
  • Why is divinity the epicentre of music, atleast carnatic music ?. Can Athethists play carnatic music with same passion  ?
  • What Influenced the development of Lipis ? Was the spoken language invented first before Lipis or was it the other way round ?
  • Do the Sanskrit proverbs actually interpret as Formal ‘Logic’ ?
  • Was Shakaracharya an Atheist before he proposed ‘Aham Bramhaasmi’ ?
  • Is Ayn Rand’s ‘Objectivism’ practised more by Indians than Americans ?
  • Do Europeans exhibit ‘Existentialism’ traits than people from any other continent ?
  • I want to stop now..Sky is the limit!! Endless possibilities..

Tuesday 9 November 2010

Windows Live Writer 2011

Yes, I am using the new windows live writer 2011. I don’t particularly like the year part in this software, don’t know why..2011 sounds like a strange figure to me, Strange for Microsoft software!. Visual Studio 2010, Office 2010, SharePoint 2010…………………you know what i mean ??, Anyhow, I like this version of the live writer and it has a bunch of improvements around UI and bits of bobs of functionality. Until later version, I’ll definitely be using Live Writer!

Thursday 16 September 2010

IE 9

is cool.. and i like the changes..

Saturday 11 September 2010

Android

Found a Blogger app for my HTC Desire..so,here I am, doing a test post from my phone..
Published with Blogger-droid v1.5.8