SOLD - S13 - CA 18 DET - Manual - Half Cut

SOLD To Customer From Singapore
This Half Cut Model Is S13 , Engine CA 18 DET - Manual , Twin Cam 16 Valve , Selling Together With Long Shaft And Rear Axle

Selling As Is Where Is Basis

To View Engine Revving, Click Video Below :-



                                          General View Of The Half Cut
General View Of The Speedometer
Mileage Reading :- 056834 Kilometers Or 35, 315 Miles
Engine Tag Information
Chassis Number
General View Of The Engine Bay
General View Of The Engine Bay
General View Of The Engine Bay
Inner Part Of The Engine
General View Of The Undercarriage
General View Of The Undercarriage
General View Of The Undercarriage
Bottom View Of The Turbo
General View Of The Undercarriage
Driver Side - Aftermarket Absorber - NISMO With Brake Caliper And Rotor

Passenger Side - Aftermarket Absorber - NISMO With Brake Caliper And Rotor
Long Shaft And Aftermarket Rear Absorbers


Rear Axle With Complete Frame
General View Of The Half Cut

Auto trivia, BlackBerry PlayBook tablet, and #QNXLive sessions

As we begin to look forward to a brand new year, we still have a couple of fun activities for you to keep a look out for as the holidays begin to wind down.

Friday, December 28 will be the last chance for you to win a BlackBerry PlayBook tablet in our automotive trivia sweepstakes. We’ll be tweeting out this year’s final trivia question on Friday at 1 p.m. ET, and if you respond back to @QNX_Auto with the correct answer, you will be entered into December’s drawing. More information can be found here: http://ow.ly/gl9sb.

Additionally, we still have two more #QNXLive Twitter sessions coming up on January 3 and January 11. On Thursday, January 3 at 1 p.m. ET, Linda Campbell, director of QNX strategic alliances, will answer your questions on the subject “Whose technology is in my car? A look at the partner technologies and capabilities found in the cars of today and tomorrow.” And then on Friday, January 11 at 1 p.m. ET live from CES 2013, Mark Rigley, director of concept development, will answer your questions on the new technology concept car that we’ll be unveiling at CES 2013.

We thank everyone who has participated in our #QNXLive sessions to date with Andy Gryc and Andrew Poliak. We had some great questions come in from @StephenBB81, @jmznvs, @BBABrian and @MitchCurtis20, and are looking forward to your additional questions. Remember, you can submit your questions now or day-of by sending a tweet to @QNX_Auto and using the hashtag #QNXLive. If your question is selected, we’ll be sure to give you a shout-out in addition to answering your question. More here: http://ow.ly/glaLk.

Here’s to a fantastic rest of the holidays and a very prosperous 2013!

Meet the QNX concept team: Allan Hudgins, web developer

In this installment of the concept team interview series, we catch up with one of the team’s newest members: Allan Hudgins

Allan Hudgins
Allan, tell us a bit about yourself and your role on the concept team.
I’ve been a software developer for a decade or so, having previously worked on satellite communication systems and emergency notification systems. On the concept team, I have been making use of new ‘real-time’ web technologies that make it possible to have near-instant, bi-directional communications between a web browser and a QNX-based device, over the Internet.

What do you like best about being on the concept team?
It’s a refreshing change from developing production software. The pressure and deadlines are still there, but it’s much easier to focus on coming up with the right ideas and executing on them than it sometimes is under a production-oriented process. I like how much control I have over the design of the solutions I contribute to the team’s projects. There are no mandates beyond getting things done, getting them done well, and getting them done quickly. Well, and have fun doing it!

Has there been a standout moment for you while working on the team?
On my first day at QNX I discovered that a developer had ported Node.js, a real-time web technology, to the QNX OS. I knew I could do some interesting things with Node.js, and within the next two weeks, I was able to create a demo that got everyone excited. I remember Mark Rigley telling me, “Wow, you don’t know what you’ve done!” That was pretty cool — eased the ‘new guy’ jitters for sure.

What is your biggest challenge right now? What keeps you up at night?
I’m usually thinking about how to solve the next problem — right now, it’s a feature for the technology concept car at CES. Creating scalable architectures is part of it, which is an interesting challenge when you’re leveraging a lot of very new technologies. Things don’t always work like it says on the back of the box.

What is your dream car?
Growing up, I always wanted a mini-van like my father. Now, with two kids, I’m afraid that wish might actually come true. I’ve driven the Porsche concept car – I’d like one of those. Please.

Anything particular you’re excited about right now?
The new concept car, of course! It’s beautiful, and it will be cool to see when it’s finished. Generally, though, I like the idea of a car pushing data to the cloud and the user being able to see that data in a meaningful way. For instance, by getting data gathered from other cars, the driver could see if there was a faster way to commute to work, and how long it would take. I think that’s not too far off.

Who would you like to see seated in a QNX technology concept car or reference vehicle?
I’d like to see my 15 month old in the passenger seat, but I don’t know what he’d do — play with the windows, maybe!

Open standards, open source, and why the difference matters

As Andy Gryc reported in a previous post, Paul Hansen of the Hansen Report asked six automakers whether they plan to ship products based on the GENIVI open source platform. Not one of them said yes.

This underwhelming response to open source may seem surprising, especially to people outside of the auto industry. It seems even more surprising when you consider the many companies that belong to the GENIVI Alliance — a veritable who’s who of high-tech and automotive companies, from ARM to IBM to Volvo. Why the disconnect?

A couple of reasons come to mind. First, the automotive market is exceedingly competitive. Asking automakers to collaborate on a common OS platform — the GENIVI approach — is arguably a non-starter. Also, many automakers seem to grasp that open source OSs don't necessarily address the issues that matter to them most.

Allow me to explain. Automotive companies entertain the option of using open source for several reasons. They want to avoid vendor lock-in. They want to leverage a large developer community. They want to access a rich toolset. And, in many cases, they hope to avoid the costs of runtime licensing.

Yes, open source can help address these requirements. But more often than not, open standards offer a better route to achieving what automakers really need.

Vendor neutral, OS neutral, hardware neutral
Take the goal of avoiding vendor lock-in. An open standard is, by definition, vendor neutral. It is typically the product of a collaborative and transparent process free of domination by a single company or interest group. Likewise, it isn’t controlled or maintained by a single, self-interested entity. HTML 5, for instance, isn’t owned by any one company, but is a standard embraced by Apple, Google, Microsoft, Mozilla, QNX, and others.

HTML5 isn't just vendor neutral; it's also OS and hardware neutral. By using it as an HMI and application environment, automakers gain the freedom to choose the best OS platform for the job at hand, and the option to migrate across platforms, if required. In other words, HTML5 enables automakers to use the platform that can offer fastest boot speed, the highest reliability, the best mobile device integration, or the best performance on automotive silicon — things that can reduce costs and improve the user experience. (To put this another way, the underlying OS platform is anything but a commodity — a fact demonstrated every day in the mobile device world.)

An open source platform may or may not share these characteristics. Even though developers can access the source code, a single entity may still control the technology’s roadmap and licensing terms. In effect, the platform can constitute a single point of failure for the automaker — exactly what automakers try to avoid. Compare this to an open standard, which is defined collaboratively and then supported over a long period of time. POSIX, with its 20+ year history, comes to mind.

Also, open standards like HTML5 are unencumbered by the protective licensing terms often associated with open source OSs — terms that can lead to greater system costs and complexity. For instance, the GNU Public License (GPL) that governs use of the Linux OS ensures that any modifications to the original program are released as open source. That's a problem for any OEM that doesn’t want to “open source” its technology; for instance, vehicle bus information. It is also incompatible with the certifications and licenses of consumer device manufacturers whose licensing terms are designed to prevent integration of their code with GPL code bases; iPod support and integration is a good example. Such technologies must, as a result, be separated into another virtualized OS or onto external hardware modules. The result is a more expensive and more complex system — another thing that automakers try to avoid.

Delivering the goods
Of course, all this hinges on whether a standard like HTML5 can deliver the goods. And from my perspective, it does. For instance, it can provide all the capabilities of a traditional HMI toolkit, including a rendering engine, content authoring and packaging tools, and sophisticated graphic transitions. But unlike proprietary solutions, it can also help automakers:

  • tap into a vast pool of apps and developers
  • integrate with mobile devices
  • build user interfaces that incorporate virtually any delivery model
  • customize the UX and simplify access to mobile apps
  • customize apps and the UX for context: park, creep, drive, etc.

In addition, HTML5 can, with the right platform, work in concert with other HMI technologies (Adobe AIR, OpenGL ES, Qt, etc.) and blend seamlessly with those technologies on same display. As a result, system designers can choose the most appropriate technology for each application.

Incorporating open source
So is open source a total non-starter in automotive? Absolutely not.

In fact, many standards incorporate open source. Let us once again consider HTML 5. While it is built on an open standard, many HTML5 implementations are developed using open source solutions. For instance, many of the current, industry-leading HTML5 solutions are built on Webkit, an open source solution governed by the Lesser GNU Public License or LGPL.

The point is, the most successful solutions will combine the best that open standards, open source, and proprietary platforms have to offer. But if you were mandate an “open” solution, an open standard would be the best to rally behind.



If you're interested in this topic, we recommend you listen to the webinar that Andrew gave last week, "In-vehicle product differentiation: open standards vs open source." — Ed.

Edmund's Kills Inside Line

One of my favorite automotive blogs, Inside Line, is being absorbed into its corporate host, Edmunds.com

I don't like it.

It looks like Edmunds is abandoning the blog format, as the new "What's Hot" page that will now contain InsideLine's content does not offer comments.  And the pop-up screens are annoying.

I like Edmunds, and use it a lot, for car research.  But let the blog be the blog and the research site be the research site.

SOLD - Lancer TA-CS5W - Half Cut

SOLD To Local Customer
This Half Cut Model Lancer TA-CS5W - Engine 4G93 - GDI Turbo - Auto ( Tiptronic ), Selling Together With All The Parts Shown In The Photos

Selling As Is Where Is Basis

To View Engine Revving, Click Video Below :-



                                          General View Of The Half Cut
General View Of The Speedometer
Mileage Reading :- 112, 334 Kilometers Or 69,801 Miles
Engine Tag Information
Chassis Number
General View Of The Engine Bay
General View Of The Engine Bay
General View Of The Engine Bay
Inner Part Of The Engine
General View Of The Undercarriage
General View Of The Undercarriage
General View Of The Undercarriage
General View Of The Undercarriage
Bonnet - Good Condition
Driver Side - Headlamp - Good Condition
Driver Side - Fender - Good Condition
Driver Side - Aftermarket Absorber - Rally Art - With Brake Caliper And Rotor

Driver Side - Fender With Side Signal Lamp - Good Condition
Bumper With Spotlights - Good Condition
Passenger Side - Headlamp And Fender - Good Condition
Passenger Side - Aftermarket Absorber - Rally Art - With Brake Caliper And Rotor
Passenger Side - Fender With Side Signal Lamp - Good Condition
Loose Parts :- Console Box / Aftermarket Rear Absorbers / Rear Knuckles And Exhaust Pipe With Catalytic Conveter
Petrol Tank With Fuel Pump Attached
Steering Wheel - Good Condition
General View Of The Half Cut