Daily Archives: August 27, 2017

Saint John Chinese Food – Authenticity and taste at its best

Saint John City market is one of the most favorite hunts for the local people as well the tourists that visit this place because they serve the best Chinese Saint John. The Saint John Chinese food boasts of its authenticity not only in its ingredients but truly in its taste and flavor. The Saint John City market has various shops that not only sell Canadian souvenirs to apparels, gift baskets and everything that you can even think of. The thing they are famous for selling is the most authentic Chinese and Asian food and ingredients. So, if you have a palate for authentic Chinese food, Saint John City market is a must visit for you.

The Chinese Saint John is truly one of its kinds. If you are a true fan of Chinese, Asian, Vietnamese or Korean food and want to prepare them at home, then you can easily collect the grocery from the Chinese food store in Saint John City market. The Linja gifts & foods is a shop which specializes in selling the most authentic Chinese grocery and ingredients. We, who are fond of Chinese food, know that it requires the perfect ingredients, spices and sauce mixes that are used in Chinese cuisine. If we want to make restaurant like Chinese food at home, then Chinese Saint John is an ideal destination for you. They sell the most authentic Chinese ingredients required to prepare the Chinese cuisine at the comfort of your kitchen. You can also try their recipe booklets which will guide you through the entire process of preparing the favorite wonton, curry, pad Thai and spring rolls at home. You can collect their recipes and easily mesmerize your family members and friends over a dinner by making the most genuine Chinese food at home. If you are interested in preparing new dishes apart from the above ones you can easily collect the different ingredients from the shop and try out the recipes at your leisure.

Not only that the Saint John Chinese food which is available across various eateries and joints in Saint John City market is also quite good. The Saint John Chinese food is famous for its authentic flavor and taste. The tourists who visit Saint John City market in New Brunswick love to gorge on the Chinese food that is available at the food counters.

So, if you are in Saint John City Market, make it a point to visit the Chinese Saint John grocery store and taste Saint John Chinese food or else your might be missing the real taste of Saint John City Market.

For more information on Chinese Saint John and Saint John Chinese Food. Visit Today – Saintjohncitymarketgifts.ca

Shopping For Fashion Online is Quick and Easy

Do you have a function coming up that requires a certain style, such as a formal event or a wedding? Do you have a class reunion coming up and you want to look your best? Do you have one of those functions but you hate shopping at the mall or your local department store? Don’t worry as you can join the millions of people worldwide who shop for fashion online. Even fashion designers shop online believe it or not. Its fast, it’s easy and it’s very convenient. It’s also often cheaper than buying clothes at the local mall as you are likely to find great deals shopping for fashion online; you just have to know where to look.

Return Policies

Just remember that if you’re shopping for fashion online, you don’t have the luxury of trying clothes on like you’d do at the mall or your local department store. That means that if you receive your packages and they don’t fit, you may be stuck with them unless the store you bought your clothes from has a return policy. Before you shop for fashion online, make sure there is a return policy in place that will allow you to return clothes in case they don’t fit, in case they’re just not flattering on you or in case you happen to see a better deal in your local store window. Most of the time you shop for fashion online, you’ll find that the shops have return policies. Never assume, however, and always check or else you may be out that money in case you find what you received isn’t exactly what you wanted.

Anything You Want

The great thing about online fashion shopping is that you are likely to find whatever it is you’re looking for. So many shops sell clothing online these days that you can find formal wear, underwear, leisure wear or anything else you’re looking for and you can have it delivered right to your door in a matter of days. If you pay a little extra for shipping, you may be able to have the items delivered to your house in one day. That’s what makes shopping for fashion online so easy and convenient.

You should have no problem finding online stores. Just use your favorite search engine or just go to the websites of your favorite mall or department stores. These are great ways to find what you’re looking for and it’s also a great way to find great deals. As long as you shop smart and you know what you’re getting, you can fill your closet with all sorts of fashion items all with a credit or debit card and a few clicks of the mouse.

i’coo Baby Strollers Introduces New Spring Stroller Models

i’coo has introduced their line of baby strollers now available for 2010! i’coo strollers are German-engineered lightweight strollers with an impressive list of standard features. i’coo makes one incredible umbrella stroller, and two baby strollers that are full stroller systems, complete with bassinet conversion and car seat adaptor bar.

The i’coo Pluto umbrella stroller is the perfect combination of style and performance. This lightweight umbrella stroller weighs only 16 lbs, but is weight-tested to hold up to 55 lbs! And the i’coo Pluto boasts the largest seat of any umbrella stroller on the market. With cased bearings, independent wheel suspension, an adjustable footrest and reclinable backrest, and canopy with included UV-protection rain cover, the i’coo Pluto is the most well-equipped lightweight umbrella stroller. This year, in addition to the selection of colors already available, i’coo has introduced 3 bright new models! Now is your chance to grab the i’coo Pluto baby stroller in Azure, Plum, or Fiesta Color Scheme.

The i’coo Targo and the i’coo Pacific baby strollers and prams are two complete stroller systems which include full bassinet conversion, standard car seat adaptor bar, and new height elevation feature, as well as an abundance of standard features like one-hand recline, adjustable footrest and handlebar, a large canopy, extra seat padding and more. The useful height elevation feature available on the i’coo Targo and the i’coo Pacific baby strollers and prams makes traveling easier by bring the stroller up to table height, rendering a high chair unnecessary. The higher seat position also gives parents easier access to the basket below! The well-established i’coo Targo baby stroller is available in five color schemes including two Disney-themed models featuring Mickey Mouse design. This year’s new i’coo Pacific baby stroller is a stylish new design offered in 4 different colors!

Also available is a new entry from i’coo’s sister company Rock Star Baby Strollers, created by legendary Bon Jovi drummer Tico Torres. Torres’ new hit is the Rock Star Baby Turbo stroller, perfect for families who don’t want to sacrifice style for portability! Similar in design to the remarkable i’coo Pluto umbrella stroller, the Rock Star Baby Turbo is an extra-lightweight baby stroller featuring adjustable footrest, reclinable backrest, and extra seat padding, and features an embroidered Rock Star logo across the seat back and the Turbo’s star design on the footrest and canopy. Traveling in rock star style has never been easier with Rock Star Baby Strollers!

i’coo and Rock Star Baby produce baby strollers with some of the best features on the market! Browse the full selection of i’coo and Rock Star Baby well-equiped German-engineered lightweight baby strollers at RoyalBambino.com today!

Author: This article was written by Candace Scimeca, an employee of Royal Bambino Children’s Furniture and Accessories Showroom. Royal Bambino offers unique, distinctive, and high-quality baby and children’s furniture, bedding, and room dcor. Visit RoyalBambino.com for a complete array of baby products, or come in to our retail store located in Murrieta, CA.

Company Secretary Courses And Subjects

Company Secretary Courses

The Company Law Board initiated a course in the year 1960 which is a Diploma in Company Secretary ship by the Government. As a result, the Institute of Company Secretaries of India stretched in the year 1969. These come under the regulation of the Companies Act in 1956 of Section 25. As per the Act of 1980, this was converted into a constitutional organization.

The Course lineup the knowledge in the field of legal affairs and commercial economic filed with the contemporary practice.
The aim of this Course’s is to expand and control the business.

* Foundation Course – 1st Stage: This is for the individual; he should pass the exam of Higher Secondary to meet up the eligibility criteria.

* Intermediate Course – 2nd Stage: The Intermediate Course which the individual should pass the foundation phase.

* Final Course – Last Stage/Final Course: The Final Course which the individual should clear all the two stages accurately to become a successful Company Secretary.

These are the all the 3 stages to be successfully completed

Eligibility Criteria:

Who and how an individual can pursue

* One should have passed his/her Higher Secondary examination or Intermediate Examination in order to pursue the Company Secretary courses.

* Those who are already a graduate and have cleared post graduation in Cost Accountancy or Chartered Accountancy has an advantage which is they can directly apply for the Intermediate stage of company secretary.

Training after Courses of Company Secretary:

After successfully clearing all the stages of the examinations; candidates have to go for a practical training for 16 months in order that the individual becomes the member of the Institute of the CSI and the person will be allocated a Professional Membership Number.

Extra Qualities:

* The person must be devoted and he/she should accomplish the good writing and speaking English skills

* He/she should also attain a moral character

* He/she should be able to understand the strategies and policies of the company. In a straight way he/she should become diplomatic person and should also be intellectual, elegant, loyal and meticulous as well.

Subjects Covers:

* Basic Economics
* Business Communication
* English
* Financial Accounting
* Company Law
* Management Accounting
* General and Commercial Law
* Corporate Secretarial practice
* Banking and Insurance
* World Trade Organization
* Corporate Restructuring
* Human Resource Management and Industrial Relation
* International Trade
* Joint Ventures and Foreign Collaborations and many more

The Evolution of Direct3D

* UPDATE: Be sure to read the comment thread at the end of this blog, the discussion got interesting.

It’s been many years since I worked on Direct3D and over the years the technology has evolved Dramatically. Modern GPU hardware has changed tremendously over the years Achieving processing power and capabilities way beyond anything I dreamed of having access to in my lifetime. The evolution of the modern GPU is the result of many fascinating market forces but the one I know best and find most interesting was the influence that Direct3D had on the new generation GPU’s that support Welcome to Thunderbird processing cores, billions of transistors more than the host CPU and are many times faster at most applications. I’ve told a lot of funny stories about how political and Direct3D was created but I would like to document some of the history of how the Direct3D architecture came about and the architecture that had profound influence on modern consumer GPU’s.

Published here with this article is the original documentation for Direct3D DirectX 2 when it was first Introduced in 1995. Contained in this document is an architecture vision for 3D hardware acceleration that was largely responsible for shaping the modern GPU into the incredibly powerful, increasingly ubiquitous consumer general purpose supercomputers we see today.

D3DOVER
The reason I got into computer graphics was NOT an interest in gaming, it was an interest in computational simulation of physics. I Studied 3D at Siggraph conferences in the late 1980’s Because I wanted to understand how to approach simulating quantum mechanics, chemistry and biological systems computationally. Simulating light interactions with materials was all the rage at Siggraph back then so I learned 3D. Understanding light 3D mathematics and physics made me a graphics and color expert roomates got me a career in the publishing industry early on creating PostScript RIP’s (Raster Image Processors). I worked with a team of engineers in Cambridge England creating software solutions for printing color graphics screened before the invention of continuous tone printing. That expertise got me recruited by Microsoft in the early 1990’s to re-design the Windows 95 and Windows NT print architecture to be more competitive with Apple’s superior capabilities at that time. My career came full circle back to 3D when, an initiative I started with a few friends to re-design the Windows graphics and media architecture (DirectX) to support real-time gaming and video applications, resulted in gaming becoming hugely strategic to Microsoft. Sony Introduced in a consumer 3D game console (the Playstation 1) and being responsible for DirectX it was incumbent on us to find a 3D solution for Windows as well.

For me, the challenge in formulating a strategy for consumer 3D gaming for Microsoft was an economic one. What approach to consumer 3D Microsoft should take to create a vibrant competitive market for consumer 3D hardware that was both affordable to consumers AND future proof? The complexity of realistically simulating 3D graphics in real time was so far beyond our capabilities in that era that there was NO hope of choosing a solution that was anything short of an ugly hack that would produce “good enough” for 3D games while being very far removed from the ideal solutions mathematically we had implemented a little hope of seeing in the real-world during our careers.

Up until that point only commercial solutions for 3D hardware were for CAD (Computer Aided Design) applications. These solutions worked fine for people who could afford hundred thousand dollars work stations. Although the OpenGL API was the only “standard” for 3D API’s that the market had, it had not been designed with video game applications in mind. For example, texture mapping, an essential technique for producing realistic graphics was not a priority for CAD models roomates needed to be functional, not look cool. Rich dynamic lighting was also important to games but not as important to CAD applications. High precision was far more important to CAD applications than gaming. Most importantly OpenGL was not designed for highly interactive real-time graphics that used off-screen video page buffering to avoid tearing artifacts during rendering. It was not that the OpenGL API could not be adapted to handle these features for gaming, simply that it’s actual market implementation on expensive workstations did not suggest any elegant path to a $ 200 consumer gaming cards.

TRPS15In the early 1990’s computer RAM was very expensive, as such, early 3D consumer hardware designs optimized for minimal RAM requirements. The Sony Playstation 1 optimized for this problem by using a 3D hardware solution that did not rely on a memory intensive the data structure called a Z-buffer, instead they used a polygon level sorting algorithm that produced ugly intersections between moving joints. The “Painters Algorithm” approach to 3D was very fast and required little RAM. It was an ugly but pragmatic approach for gaming that would have been utterly unacceptable for CAD applications.

In formulating the architecture for Direct3D we were faced with difficult choices Similar enumerable. We wanted the Windows graphics leading vendors of the time; ATI, Cirrus, Trident, S3, Matrox and many others to be Able to Compete with one another for rapid innovation in 3D hardware market without creating utter chaos. The technical solution that Microsoft’s OpenGL team espoused via Michael Abrash was a driver called 3DDDI models (3D Device Driver Interface). 3DDDI was a very simple model of a flat driver that just supported the hardware acceleration of 3D rasterization. The complex mathematics associated with transforming and lighting a 3D scene were left to the CPU. 3DDDI used “capability bits” to specify additional hardware rendering features (like filtering) that consumer graphics card makers could optionally implement. The problem with 3DDDI was that it invited problems for game developers out of the gate. There were so many cap-bits every game that would either have to support an innumerable number of feature combinations unspecified hardware to take advantage of every possible way that hardware vendors might choose to design their chips producing an untestable number of possible hardware configurations and a consumer huge amount of redundant art assets that the games would not have to lug around to look good on any given device OR games would revert to using a simple set of common 3D features supported by everyone and there would be NO competitive advantage for companies to support new hardware 3D capabilities that did not have instant market penetration. The OpenGL crowd at Microsoft did not see this as a big problem in their world Because everyone just bought a $ 100,000 workstation that supported everything they needed.

The realization that we could not get what we needed from the OpenGL team was one of the primary could be better we Decided to create a NEW 3D API just for gaming. It had nothing to do with the API, but with the driver architecture underneath Because we needed to create a competitive market that did not result in chaos. In this respect the Direct3D API was not an alternative to the OpenGL API, it was a driver API designed for the sole economic purpose of creating a competitive market for 3D consumer hardware. In other words, the Direct3D API was not shaped by “technical” requirements so much as economic ones. In this respect the Direct3D API was revolutionary in several interesting ways that had nothing to do with the API itself but rather the driver architecture it would rely on.

When we Decided to acquire a 3D team to build with Direct3D I was chartered surveying the market for candidate companies with the right expertise to help us build the API we needed. As I have previously recounted we looked at Epic Games (creators of the Unreal engine), Criterion (later acquired by EA), Argonaut and finally Rendermorphics. We chose Rendermorphics (based in London) Because of the large number of 3D quality engineers and the company employed Because The founder, Servan Kiondijian, had a very clear vision of how consumer 3D drivers should be designed for maximum future compatibility and innovation. The first implementation of the Direct3D API was rudimentary but quickly intervening evolved towards something with much greater future potential.

D3DOVER lhanded
Whoops!

My principal memory from that period was a meeting in roomates I, as the resident expert on the DirectX 3D team, was asked to choose a handedness for the Direct3D API. I chose a left handed coordinate system, in part out of personal preference. I remember it now Only because it was an arbitrary choice that by the caused no end of grief for years afterwards as all other graphics authoring tools Adopted the right handed coordinate system to the OpenGL standard. At the time nobody knew or believed that a CAD tool like Autodesk would evolve up to become the standard tool for authoring game graphics. Microsoft had acquired Softimage with the intention of displacing the Autodesk and Maya anyway. Whoops …

The early Direct3D HAL (Hardware Abstraction Layer) was designed in an interesting way. It was structured vertically into three stages.

DX 2 HAL

The highest was the most abstract layer transformation layer, the middle layer was dedicated to lighting calculations and the bottom layer was for rasterization of the finally transformed and lit polygons into depth sorted pixels. The idea behind this vertical structure driver was to provide a relatively rigid feature path for hardware vendors to innovate along. They could differentiate their products from one another by designing hardware that accelerated increasingly higher layers of the 3D pipeline resulting in greater performance and realism without incompatibilities or a sprawling matrix of configurations for games to test against art or requiring redundant assets. Since the Direct3D API created by Rendermorphics Provided a “pretty fast” implementation software for any functionality not accelerated by the hardware, game developers could focus on the Direct3D API without worrying about myriad permutations of incompatible hardware 3D capabilities. At least that was the theory. Unfortunately like the 3DDDI driver specification, Direct3D still included capability bits designed to enable hardware features that were not part of the vertical acceleration path. Although I actively objected to the tendency of Direct3D capability to accumulate bits, the team felt extraordinary competitive pressure from Microsoft’s own OpenGL group and from the hardware vendors to support them.

The hardware companies, seeking a competitive advantage for their own products, would threaten to support and promote OpenGL to game developers Because The OpenGL driver bits capability supported models that enabled them to create features for their hardware that nobody else supported. It was common (and still is) for the hardware OEM’s to pay game developers to adopt features of their hardware unique to their products but incompatible with the installed base of gaming hardware, forcing consumers to constantly upgrade their graphics card to play the latest PC games . Game developers alternately hated capability bits Because of their complexity and incompatibilities but wanted to take the marketing dollars from the hardware OEM’s to support “non-standard” 3D features.

Overall I viewed this dynamic as destructive to a healthy PC gaming economy and advocated resisting the trend OpenGL Regardless of what the people wanted or OEM’s. I believed that creating a consistent stable consumer market for PC games was more important than appeasing the hardware OEM’s. As such as I was a strong advocate of the relatively rigid vertical Direct3D pipeline and a proponent of introducing only API features that we expected up to become universal over time. I freely confess that this view implied significant constraints on innovation in other areas and a placed a high burden of market prescience on the Direct3D team.

The result, in my estimation, was pretty good. The Direct3D fixed function pipeline, as it was known, produced a very rich and growing PC gaming market with many healthy competitors through to DirectX 7.0 and the early 2000’s. The PC gaming market boomed and grew to be the largest gaming market on Earth. It also resulted in a very interesting change in the GPU hardware architecture over time.

Had the Direct3D HAL has been a flat driver with just the model for rasterization capability bits as the OpenGL team at Microsoft had advocated, 3D hardware makers would have competed by accelerating just the bottom layer of the 3D rendering pipeline and adding differentiating features to their hardware capability via bits that were incompatible with their competitors. The result of introducing the vertical layered architecture THING that was 3D hardware vendors were all encouraged to add features to their GPU’s more consistent with the general purpose CPU architectures, namely very fast floating point operations, in a consistent way. Thus consumer GPU’s evolved over the years to increasingly resemble general purpose CPU’s … with one major difference. Because the 3D fixed function pipeline was rigid, the Direct3D architecture afforded very little opportunity for code branching frequent as CPU’s are designed to optimize for. Achieved their GPU’s amazing performance and parallelism in part by being free to assume that little or no branching code would ever occur inside a Direct3D graphics pipeline. Thus instead of evolving one giant monolithic core CPU that has massive numbers of transistors dedicated to efficient branch prediction has as an Intel CPU, GPU has a Direct3D Hundreds to Welcome to Thunderbird simple CPU cores like that have no branch prediction. They can chew through a calculation at incredible speed confident in the knowledge that they will not be interrupted by code branching or random memory accesses to slow them down.

DirectX 7.0 up through the underlying parallelism of the GPU was hidden from the game. As far as the game was concerned some hardware was just faster than other hardware but the game should not have to worry about how or why. The early DirectX fixed function pipeline architecture had done a brilliant job of enabling dozens of Disparate competing hardware vendors to all take different approaches to Achieving superior cost and performance in consumer 3D without making a total mess of the PC gaming market for the game developers and consumers . It was not pretty and was not entirely executed with flawless precision but it worked well enough to create an extremely vibrant PC gaming market through to the early 2000’s.

Before I move on to discussing more modern evolution Direct3D, I would like to highlight a few other important ideas that influenced architecture in early modern Direct3D GPU’s. Recalling that in the early to mid 1990’s was relatively expensive RAM there was a lot of emphasis on consumer 3D techniques that conserved on RAM usage. The Talisman architecture roomates I have told many (well-deserved) derogatory stories about was highly influenced by this observation.

Talsiman
Search this blog for tags “Talisman” and “OpenGL” for many stories about the internal political battles over these technologies within Microsoft

Talisman relied on a grab bag of graphics “tricks” to minimize GPU RAM usage that were not very generalized. The Direct3D team, Rendermorphics Heavily influenced by the founders had made a difficult choice in philosophical approach to creating a mass market for consumer 3D graphics. We had Decided to go with a more general purpose Simpler approach to 3D that relied on a very memory intensive a data structure called a Z-buffer to Achieve great looking results. Rendermorphics had managed to Achieve very good 3D performance in pure software with a software Z-buffer in the engine Rendermorphics roomates had given us the confidence to take the bet to go with a more general purpose 3D Simpler API and driver models and trust that the hardware RAM market and prices would eventually catch up. Note however that at the time we were designing Direct3D that we did not know about the Microsoft Research Groups “secret” Talisman project, nor did they expect that a small group of evangelists would cook up a new 3D API standard for gaming and launch it before their own wacky initiative could be deployed. In short one of the big bets that Direct3D made was that the simplicity and elegance of Z-buffers to game development were worth the risk that consumer 3D hardware would struggle to affordably support them early on.

Despite the big bet on Z-buffer support we were intimately aware of two major limitations of the consumer PC architecture that needed to be addressed. The first was that the PC bus was generally very slow and second it was much slower to copy the data from a graphics card than it was to copy the data to a graphics card. What that generally meant was that our API design had to growing niche to send the data in the largest most compact packages possible up to the GPU for processing and absolutely minimize any need to copy the data back from the GPU for further processing on the CPU. This generally meant that the Direct3D API was optimized to package the data up and send it on a one-way trip. This was of course an unfortunate constraint Because there were many brilliant 3D effects that could be best accomplished by mixing the CPU’s branch prediction efficient and robust floating point support with the GPU’s parallel rendering incredible performance.

One of the fascinating Consequences of that constraint was that it forced the GPU’s up to become even more general purpose to compensate for the inability to share the data with the CPU efficiently. This was possibly the opposite of what Intel intended to happen with its limited bus performance, Because Intel was threatened by the idea that the auxiliary would offload more processing cards from their work thereby reducing the CPU’s Intel CPU’s value and central role to PC computing. It was reasonably believed at that time that Intel Deliberately dragged their feet on improving PC performance to deterministic bus a market for alternatives to their CPU’s for consumer media processing applications. Earlier Blogs from my recall that the main REASON for creating DirectX was to Prevent Intel from trying to virtualize all the Windows Media support on the CPU. Intel had Adopted a PC bus architecture that enabled extremely fast access to system RAM shared by auxiliary devices, it is less Likely GPU’s that would have evolved the relatively rich set of branching and floating point operations they support today.

To Overcome the fairly stringent performance limitations of the PC bus a great deal of thought was put into techniques for compressing and streamlining DirectX assets being sent to the GPU performance to minimize bus bandwidth limitations and the need for round trips from the GPU back to the CPU . The early need for the rigid 3D pipeline had Consequences interesting later on when we Began to explore assets streaming 3D over the Internet via modems.

We Recognized early on that support for compressed texture maps would Dramatically improve bus performance and reduce the amount of onboard RAM consumer GPU’s needed, the problem was that no standards Existed for 3D texture formats at the time and knowing how fast image compression technologies were evolving at the time I was loathe to impose a Microsoft specified one “prematurely” on the industry. To Overcome this problem we came up with the idea of ​​”blind compression formats”. The idea, roomates I believe was captured in one of the many DirectX patents that we filed, had the idea that a GPU could encode and decode image textures in an unspecified format but that the DirectX API’s would allow the application to read and write from them as though they were always raw bitmaps. The Direct3D driver would encode and decode the image data is as Necessary under the hood without the application needing to know about how it was actually being encoded on the hardware.

By 1998 3D chip makers had begun to devise good quality 3D texture formats by DirectX 6.0 such that we were Able to license one of them (from S3) for inclusion with Direct3D.

http://www.microsoft.com/en-us/news/press/1998/mar98/s3pr.aspx

DirectX 6.0 was actually the first version of DirectX that was included in a consumer OS release (Windows 98). Until that time, DirectX was actually just a family of libraries that were shipped by the Windows games that used them. DirectX was not actually a Windows API until five generations after its first release.

DirectX 7.0 was the last generation of DirectX that relied on the fixed function pipeline we had laid out in DirectX 2.0 with the first introduction of the Direct3D API. This was a very interesting transition period for Direct3D for several could be better;

1) The original founders DirectX team had all moved on,

2) Microsoft’s internal Talisman and could be better for supporting OpenGL had all passed

3) Microsoft had brought the game industry veterans like Seamus Blackley, Kevin Bacchus, Stuart Moulder and others into the company in senior roles.

4) Become a Gaming had a strategic focus for the company

DirectX 8.0 marked a fascinating transition for Direct3D Because with the death of Talisman and the loss of strategic interest in OpenGL 3D support many of the people from these groups came to work on Direct3D. Talisman, OpenGL and game industry veterans all came together to work on Direct3D 8.0. The result was very interesting. Looking back I freely concede that I would not have made the same set of choices that this group made for DirectX 8.0 in chi but it seems to me that everything worked out for the best anyway.

Direct3D 8.0 was influenced in several interesting ways by the market forces of the late 20th century. Microsoft largely unified against OpenGL and found itself competing with the Kronos Group standards committee to advance faster than OpenGL Direct3D. With the death of SGI, control of the OpenGL standard fell into the hands of the 3D hardware OEM’s who of course wanted to use the standard to enable them to create differentiating hardware features from their competitors and to force Microsoft to support 3D features they wanted to promote. The result was the Direct3D and OpenGL Became much more complex and they tended to converge during this period. There was a stagnation in 3D feature adoption by game developers from DirectX 8.0 to DirectX 11.0 through as a result of these changes. Became creating game engines so complex that the market also converged around a few leading search providers Including Epic’s Unreal Engine and the Quake engine from id software.

Had I been working on Direct3D at the time I would have stridently resisted letting the 3D chip lead Microsoft OEM’s around by the nose chasing OpenGL features instead of focusing on enabling game developers and a consistent quality consumer experience. I would have opposed introducing shader support in favor of trying to keep the Direct3D driver layer as vertically integrated as possible to Ensure conformity among hardware vendors feature. I also would have strongly opposed abandoning DirectDraw support as was done in Direct3D 8.0. The 3D guys got out of control and Decided that nobody should need pure 2D API’s once developers Adopted 3D, failing to recognize that simple 2D API’s enabled a tremendous range of features and ease of programming that the majority of developers who were not 3D geniuses could Easily understand and use. Forcing the market to learn 3D Dramatically constrained the set of people with the expertise to adopt it. Microsoft later discovered the error in this decision and re-Introduced DirectDraw as the Direct2D API. Basically letting the Direct3D 8.0 3D design geniuses made it brilliant, powerful and useless to average developers.

At the time that the DirectX 8.0 was being made I was starting my first company WildTangent Inc.. and Ceased to be closely INVOLVED with what was going on with DirectX features, however years later I was Able to get back to my roots and 3D took the time to learn Direct3D programming in DirectX 11.1. Looking back it’s interesting to see how the major architectural changes that were made in DirectX 8 resulted in the massively convoluted and nearly incomprehensible Direct3D API we see today. Remember the 3 stage pipeline DirectX 2 that separated Transformation, lighting and rendering pipeline into three basic stages? Here is a diagram of the modern DirectX 11.1 3D pipeline.

DX 11 Pipeline

Yes, it grew to 9 stages and 13 stages when arguably some of the optional sub-stages, like the compute shader, are included. Speaking as somebody with an extremely lengthy background in very low-level 3D graphics programming and I’m Embarrassed to confess that I struggled mightily to learn programming Direct3D 11.1. Become The API had very nearly incomprehensible and unlearnable. I have no idea how somebody without my extensive background in 3D and graphics could ever begin to learn how to program a modern 3D pipeline. As amazingly powerful and featureful as this pipeline is, it is also damn near unusable by any but a handful of the most antiquated brightest minds in 3D graphics. In the course of catching up on my Direct3D I found myself simultaneously in awe of the astounding power of modern GPU’s and where they were going and in shocked disgust at the absolute mess the 3D pipeline had Become. It was as though the Direct3D API had Become a dumping ground for 3D features that every OEM DEMANDED had over the years.

Had I not enjoyed the benefit of the decade long break from Direct3D involvement Undoubtedly I would have a long history of bitter blogs written about what a mess my predecessors had made of a great and elegant vision for the consumer 3D graphics. Weirdly, however, leaping forward in time to the present day, I am forced to admit that I’m not sure it was such a bad thing after all. The result of stagnation gaming on the PC as a result of the mess Microsoft and the OEMs made of the Direct3D API was a successful XBOX. Having a massively fragmented 3D API is not such a problem if there is only one hardware configuration to support game developers have, as is the case with a game console. Direct3D shader 8.0 support with early primitive was the basis for the first Xbox’s graphics API. For the first selected Microsoft’s XBOX NVIDIA NVIDIA chip giving a huge advantage in the 3D PC chip market. DirectX 9.0, with more advanced shader support, was the basis for the XBOX 360, Microsoft roomates selected for ATI to provide the 3D chip, AMD this time handing a huge advantage in the PC graphics market. In a sense the OEM’s had screwed Themselves. By successfully Influencing Microsoft and the OpenGL standards groups to adopt highly convoluted graphics pipelines to support all of their feature sets, they had forced Themselves to generalize their GPU architectures and the 3D chip market consolidated around a 3D chip architecture … whatever Microsoft selected for its consoles.

The net result was that the retail PC game market largely died. It was simply too costly, too insecure and too unstable a platform for publishing high production value games on any longer, with the partial exception of MMOG’s. Microsoft and the OEM’s had conspired together to kill the proverbial golden goose. No biggie for Microsoft as they were happy to gain complete control of the former PC gaming business by virtue of controlling the XBOX.

From the standpoint of the early DirectX vision, I would have said that this outcome was a foolish, shortsighted disaster. Microsoft had maintained a little discipline and strategic focus on the Direct3D API they could have ensured that there were NO other consoles in existence in a single generation by using the XBOX XBOX to Strengthen the PC gaming market rather than inadvertently destroying it. While Microsoft congratulates itself for the first successful U.S. launch of the console, I would count all the gaming dollars collected by Sony, Nintendo and mobile gaming platforms over the years that might have remained on Microsoft platforms controlled Microsoft had maintained a cohesive strategy across media platforms. I say all of this from a past tense perspective Because, today, I’m not so sure that I’m really all that unhappy with the result.

The new generation of consoles from Sony AND Microsoft have Reverted to a PC architecture! The next generation GPU’s are massively parallel, general-purpose processors with intimate access to the shared memory with the CPU. In fact, the GPU architecture Became so generalized that a new pipeline stage was added in DirectX 11 DirectCompute called that simply allowed the CPU to bypass the entire convoluted Direct3D graphics pipeline in favor of programming the GPU directly. With the introduction of DirectCompute the promise of simple 3D programming returned in an unexpected form. Modern GPU’s have Become so powerful and flexible that the possibility of writing cross 3D GPU engines directly for the GPU without making any use of the traditional 3D pipeline is an increasingly practical and appealing programming option. From my perspective here in the present day, I would anticipate that within a few short generations the need for the traditional Direct3D and OpenGL APIs will vanish in favor of new game engines with much richer and more diverse feature sets that are written entirely in device independent shader languages ​​like Nvidia’s CUDA and Microsoft’s AMP API’s.

Today, as a 3D physics engine and developer I have never been so excited about GPU programming Because of the sheer power and relative ease of programming directly to the modern GPU without needing to master the enormously convoluted 3D pipelines associated with Direct3D and OpenGL API’s. If I were responsible for Direct3D strategy today I would be advocating dumping the investment in traditional 3D pipeline in favor of Rapidly opening direct access to a rich GPU programming environment. I personally never imagined that my early work on Direct3D, would, within a couple decades, Contribute to the evolution of a new kind of ubiquitous processor that enabled the kind of incredibly realistic and general modeling of light and physics that I had learned in the 1980 ‘s but never believed I would see computers powerful enough to models in real-time during my active career.

Variant Types Of Computer Networks

A computer network is the practice of linking two or more computing devices together to exchange information. Networks are built with a mix of hardware
and software. This network is to share services and communicate via a communication link.

A computer network is very useful in a business. Most companies have over time more of a team and is often very beneficial to the network for all computers in the office. Local Area Network (LAN) equipment to your company. It’s about sharing and exchange different types of information as possible. If there are networks of computers, you hear these reasons.

There are different types of computer networks. A computer can be as simple as connecting two computers or a computer and a printer, or it can be very complex, connecting millions of computers and peripherals. Here is a list of different types of equipment.

The smallest type of network is a Personal Area Network (PAN). This type of computer network to connect a computer to a series of devices. These devices may include, but are not limited to, printers, PDAs and phones. Typically, these are very close to a computer. a Local Area Network (LAN) is a network of small geographical used. An example of this type is a computer network with two or more computers or computers that are connected to a workstation. A version of a LAN is a Wireless LAN (WLAN).

A Campus Area Network (CAN) is ideal for a university, but also occur in industrial plants. This type of computer network between computers in several buildings. This is usually used for bridging and routing. A Metropolitan Area Network (MAN) is a set of interconnected LANs and WANs, but will not extend certain restrictions, such as a city, town or city. Many of them operated in the public schools and used by companies and individuals in the region.

A Wide Area Network (WAN) is a step in a man what kind of computer network that crosses metropolitan or even national boundaries. The most popular WAN is the Internet. This computer network routers and public communications links used for data transport. Many WAN operated by private companies and limited, unlike the Internet. Although these species are the MAN network, computer users most of the other by the size of a Desk Area Network (DAN) on a very Large Global Area Network (GAN).

Sharapova Appoints New Coach

Jakarta – Maria Sharapova appoint Jimmy Connors as his new coach. Connors replaces Thomas Hogstedt which has already agreed to part with Sharapova.

After three years of working together, Hogstedt and Sharapova agreed to part ways on Friday (07/12/2013) local time. Due to personal reasons, the Swede could not accompany Sharapova in tournaments to come.

To replace Hogstedt, Sharapova lifted Connors as coach. Men from the United States who collected eight grand slam titles before is coach Andy Roddick.

“I’m happy to announce that Jimmy Connors would be my new coach,” Sharapova wrote on her official website as quoted by Sky Sports.

“I’ve known Jimmy for many years and we had worked together in 2008 before the Australian Open,” said two of the world tennis rankings.

“I’m very excited with this new partnership and look forward to the upcoming tournament,” he said.

After being eliminated in the second round at Wimbledon last, Sharapova is now preparing for the next Grand Slam, the U.S. Open will be held on 26 August to 9 September next.

Working In An Animal Hospital – A Variety of Opportunities

If you have a love for animals, working in an animal hospital may be a fitting career for you. There are a variety of different career paths you could follow to achieve this goal. Not all lovers of furry friends must become veterinarians. There are pet sitters, groomers, vet assistants, shelter technicians, and obedience trainers that all get to live their dream. Each career path requires a different set of skills, and becoming a professional in this field means that you must obtain a certain amount of experience or certifications to land a job.

Firstly, you should set your goal. You love your pets, but which role would you specifically like to fill in an animal hospital. What are your skills? Are you a good leader? Are you okay with living on a relatively modest income? How are your communication skills? Are you interested in working directly with dogs, cats, or birds? You should have at least a high school education, exceptional leadership qualities, and work well with others if you would like to become one of the following professionals.

Pet Groomers

These professionals must be hands on and able to work directly with pets. Many of these professionals work in an animal hospital, working closely with other pet health care professionals like veterinarians and trainers.

Obedience Trainer

If you want to become a professional dog trainer, you could apprentice with a trainer at an animal hospital. Doing so will help you to get the hands on experience that you need to practice professionally.

Veterinary Technician

Vet techs are the professionals that deliver care directly to pets under the supervision and guidance of a veterinarian. These professionals have a number of duties, including providing nursing and first aid care to pets, assisting veterinarians with procedures, providing routine procedures like shots and dental cleanings, and making sure pet owners are educated on the health of their pets.

If you want to work in an animal hospital, you have a variety of opportunities. From working with veterinarians to treat pets to training and grooming dogs, there are a number of different career paths you could follow. If you are currently in high school or college, you could take action by taking extra classes that could help you prepare for becoming one of these professionals. You can also do research on your own by reading books on the subject. Interview other people who are currently professionals in the field.

Personal Financial Check-up

Like our own body, our own financial also need to do a check-up regularly so that our financial will be in nice and safe situation. For the company, they must do the audit in every year but very less individual make their own financial audit. Why? because we are not aware about it. Most of us just running our life day by day, month by month, year by year just it is without asking or try to explore whether their financial status is in a safe situation or not.

Personal Financial Check-up is a simple method of analysis to study and explore our own financial situation so that it will be in the safe situation and secure. To make an analysis, we need to write down all of our assets and liabilities in a spreadsheet, then the data will analyzed to produce the result. By the result, then we can see whether our current own financial is in a good situation or not.

After that, we can work accordingly. We may have to do some adjustment somewhere to make sure that we can achieve whatever target we plan to achieve. Without a nice planning, it is almost impossible to get what we a planed or you may get what you plan but it will take too long to get it.

What is the benefit of Personal Financial Check-up?

For sure I will guarantee you that you will get a lot of benefit when you do that check-up. You no need to hired a professional financial consultant to check your financial. Actually, you can do by yourself. What you have to do is only just to get the your own financial information and put it down in the spreadsheet and try to explore it. In specific, by using this method you can get all these benefits: –

* You will know where your financial situation now
* When you know your financial situation, you can make an action accordingly
* When you do the right action, your financial will be safe and secure
* Your short and long term financial will be in a healthy place
* You will be free from debt or at least reduce it
* You will optimizing your assets or your money
* You can cut any consumption that it is maybe not necessary or just wasted your money
* You can multiply your money
* Lastly…you can retired with a stress free…enjoy the life along the way

Wild Animals in the Suburbs – How Habitat Loss Impacts American Wildlife

In latest many years reviews of wild animals in strange locations have turn out to be really typical. Packs of coyotes prowling the hills outside (and inside of) of Los Angeles stimulate men and women to build tall partitions or fences all around their residences. In the eastern portion of the United States, house owners often location deer on their suburban lawns.

20 several years ago, sightings of wild animals normally transpired in environmentally suitable areas. When I was increasing up in the late/mid twentieth century, the sight of a fox or deer was a thrill to be related with great exhilaration. Nowadays, the deer wander powering shopping centers and yard outlets on the outskirts of cities promote deer repellent.nt.

Why are these wild animals invading very populated regions? The reply is simple. The creating boom of the 1980’s and 1990’s ate into outlying areas, creating extensive tracks of housing developments in rural regions. The people who moved into the new houses necessary colleges, hospitals, and buying facilities so even a lot more land was paved above. Animals with survival skills learned to reside with folks, roadways, and populated locations. They tailored to their new surroundings.

As rural places stuffed with bulldozers and noisy building products, some of the wild animals fled the disruption. They moved toward the towns, traveling along the eco-friendly, wooded paths near highways. As soon as in the suburbs, they found some sheltering trees and shrubbery. Foodstuff was available. Deer positioned gardens. Foxes dined on rats, mice, and the occasional rabbit. Hawks trolled back yards in look for of bird feeders or hung out near the highways searching for unwary mice or rats.

Obviously, some incursion of wildlife has been beneficial to suburban regions. The hawks, owls, and fox feed on vermin. Their foodstuff choices are great for the neighborhood. But when these beautiful deer begin munching on the azaleas, they are no for a longer time so attractive.

Coyotes, in the west as nicely as the eastern coyotes that have enhanced their variety drastically, consume vermin, but will gobble up the family members cat or a modest canine.

The decline of habitat in America is an outdated story. When the initial British colonists arrived in the seventeenth century, the East Coast was a single massive tract of virgin forest. Bison and elk lived on the East Coastline, although they ended up scaled-down variations of their western cousins. The colonists soon cleared away the forest for farms, homesteads, and the burgeoning timber company. Trappers went into the forest to harvest animals’ furs.

Now, there are only a number of concealed pockets of virgin forest. The wildlife that depended on such areas is mostly long gone. The us has produced numerous extinctions including the conclude of the popular passenger pigeon. Flocks of passenger pigeons had been when so large, they darkened the sky with their passing. In spite of the large figures of the pigeons, not one is still left nowadays. They were hunted into oblivion.