Tuesday, April 15, 2014

Apple’s Plan for Clean Energy

Prineville
Apple is planning an expansion on its use of clean energy in order to power its iCloud data centers by using the facility of its company’s Prineville, Oregon which has now been connected by a small hydroelectric project acquired by the makers of iPhone.

This report had been revealed by The Oregonian and its initial proposals for the project showed that it would generate between three and five megawatts, sufficient to power around 2,000 to 3,500 homes though Apple will need only a small amount of the power to run the facility. The project which is 45 mile long is located near Haystack Reservoir in a Jefferson County irrigation canal around 20 miles from Prineville and the price paid by Apple for the project is not known though the earlier owner, EBD Hydro, it was reported had secured around $8.5 million in federal loans as well as grants in helping to finance it.

The company had planned to begin work late 2011 though it was not clear if the facility was operative and Apple had declined to comment while EBD remained unresponsive to inquiries to the deal. The Oregon data center of Apple has already been using wind energy as its California center and Apple relied on the largest privately owned solar farm in the country of its Maiden N.C. activity while its upcoming center at Nevada will be using solar and geothermal energy.

Power Data Center with Renewable Energy

Apple plans to power its data center entirely with renewable energy like its other leading data center operations stating that it buys its local renewable wind energy from Prineville facility and the company is exploring the possibility to acquire land for a huge solar array.

Apple had started construction of the Prineville facility in October 2012, flattening and clearing the site, where the two 338,000 square foot construction would eventually stand and the land preparation with the construction have cost Apple around $68 million inclusive of server hardware, construction cost together with labor costs.

 The facility is presumed to cost hundreds of millions of dollars or could be also billions. Additional plans were also on; to take the 45 mile project offline when the irrigation canal would be shut in the month of winter and hence Apple’s hydro deal would be providing a small portion of the company’s electricity consumption.

Plans to Double the size of Oregon Data Center

Most of the big internet companies operate data centers in Oregon; include Facebook, Google and Amazon who are drawn in part by the low power prices of the region and to a greater extent by tax exemption on their expensive computers and a big data center would cost $1 billion or even more to equip.

It was also revealed that last September, Apple was on the look out to double the size of its Oregon data center and that the company was planning to purchase additional land at a nearby site which would house a second structure of similar size.

It was also reported that Apple would be paying around $10,000 every year to the government of Prineville and Crook County for a 15 year property tax exemption.

MakerBot's iOS-connected 5th generation of 3D


MakerBot
3D Animation for Mac and Windows PC

The technology behind 3D printing has been improving with market leaders like MakerBot making headway to expand its lineup of devices in enhancing its connectivity with Apple’s iOS ecosystem. MakerBot Industries had recently held an event in Boston at one of its new retail locations to show off it 5th generation of 3D printers and the company new Digitizer desktop 3D scanner offering a sneak peek at KeyShot5 which is the latest generation of the 3D animation and rendering application for Mac and Windows PCs.

It is one of the first 3D printer and scanner from MakerBot that can be controlled with software through the Mac while the new iOS specific applications are also in the pipeline from the company. MakerBot Mobile will also be providing for iPhone users the capabilities to monitor as well as control the new fifth generation printer while the MakerBot PrintShop on iPad will enable users to create and print 3D objects.

User-friendly 3D Printing Platform

The 5th generation MakerBot entry includes the new user friendly 3D printing platform which is app and cloud enabled while the USB and Ethernet connectivity will be joined by Wi-Fi support later. The hardware is inclusive of an onboard camera and diagnostics with assisted built plate leveling with a new Smart Extruder, motion controllers together with gantry designs.

 Moreover it has an 11 percent bigger build volume with quicker print times than its fourth generation predecessor. Its other fifth generation 3D printers are the Replicator Mini and the Replicator Z18 which are priced at $1,375 and $ 6,499 respectively.

In addition to its forthcoming full featured iOS application, MakerBot Industries is also offering its Thingiverse app which enables mobile users to browse 3D printer files that are available on the Thingiverse site and using the iPhone app, users can also browse, review as well as upload images of printed objects to MakerBots’ online community.

Ten minutes to Scan in Three Dimension Object

Regarding the new Digitizer, it takes around ten minutes to scan in a three dimension object for a maximum size of 8 x 8 inches to create a render for the company’s 3D printers. Moreover the system uses a turntable style platter to rotate the object while scanning by lasers making it easy for the person to scan in an object using a 3D printer without using advanced software.

In addition to its Digitizer and 3D printers, the company will also sell plastic filaments spools for printing new object with small trinkets for those of whom would be interested in spending more than thousand dollars on a printer or scanner and the items that are available at their Boston store includes a tiny recreation of Fenway Park, an iPhone dock that angles the handset’s speaker forward which can amplify it for listening to audio and a rendition of the park’s fabled left field `Green Monster’.

They would also be offering 3D printing services for users who would need a onetime replication and would not want to own a printer. The company will also be offering the fifth generation MakerBot Replicator 2 and MakerBot Replicator 2X Experimental for purchase at discounted prices to the users.

Sunday, April 13, 2014

Apple offer hi-res 24-bit tracks on iTunes


iTunes
Apple’s Major Overhaul of iTunes

Following a report, Apple is considering a major overhaul of iTunes and the company is making plans to enter into the high definition music industry with 24-bit track. It was reported that Apple will be launching hi-res audio sales in two months to coincide with the release of the three Led Zeppelin remasters and would probably charge an additional dollar for high resolution tracks and the new features would be offered in line with the usual iTunes track with the option of album purchase.

Presently Apple needs publishers providing 24-bit ALAC tracks along with high sampling price to improve sound quality for transcoding to lossy AAC format which is currently available on iTunes. AAC cuts a good amount of data from the original mastered version like the MP3 codec, trading subtle nuances in dynamic range, detail, fidelity with other sound quality metrics for small sized files.

Supporting the rumor is Apple’s Mastered for iTunes initiative providing studios along with specialized software, especially AU Lab, helping in checking how AAC conversion could affect the uncompressed masters. The studios could then pass the original 24-bit masters to iTunes at a varying sampling rate, creating files without loss and encoding them into 16-bit AAC tracks. This would mean Apple would have a huge repository of lossless music.

Music in a 24-Bit Format

Apple had been working on providing music in a 24-bit format for some time and a report of 2011 stated that the company was in talks to increase the quality of iTunes Music. Presently Apple has been selling audio files on iTunes in a 16-bit lossy AAC format encoded at 256 kbs to a minimum file and high definition 24-bit downloads would offer better details with greater depth with deeper bass response when compared to traditional 16-bit music downloads and the file sizes would be much larger.

Apple has been offering16-bit audio files presently but the company is encouraging artist to submit music in a 24-bit 96 kHz resolution which can be used to create more accurate encodes. Since Apple has accepted 24-bit files for years, it has a large catalog of high quality audio files which could be offered for sales at a premium of $1 over the traditional iTunes tracks.

Better Digital Music

Moreover Hi-res audio has been getting popular with the present generation and music sites like HDtracks are gaining deals with multiple major record labels. Popular artist like Credence Clearwater Revival, Neil Young and many others are putting out high resolution audio with an audio platform called Orastream pointing that the artist are working with technologies making the digital music sound better.

If Apple choose to start selling 24-bit audio tracks it would dominate the competing sites based on its existing user base and boost its digital downloads by appealing to audiophiles presently unhappy with the quality of iTunes tracks. Apple is asking sound engineers for 96 kHz, 24-bit WAV files with the possibility to process its very own `mastered for iTunes’, versions and also to start selling music in `better than CD quality’ resolution and format. Do check out for more refreshing technology information at Macmyth

Saturday, April 12, 2014

Apple Unlikely To Utilize Custom iPhone Baseband Chip



Baseband Chip
Apple’s in-house Baseband Processor Design & Production

It was revealed to investors from reports received by Appleinsider about the silicon firm Broadcom’s recent struggle in producing an LTE modem of its own against the uphill battle that awaits Apple. Broadcom is one of those companies that Apple had hired away a number of baseband hardware and software engineers recently and Apple all together had assembled around 30 mid and senior level baseband software as well as hardware engineers from the silicon firm together with the current iPhone baseband vendor Qualcomm in the last few years.

Moreover, Apple is also advertising over 50 more additional openings with regards to RF chip design which is still in process, an indication that the build-up is not yet complete. This move would probably fit in with Apple’s recent push to exert more control over the components which powers their most important products. If Apple decides to bring baseband processor design as well as production in-house as it has been indicated, analyst believe that the chips would not be likely to debut in new iPhone models before 2015 which could be the result faced by them due to the notorious difficult nature of their development.

Baseband Processor – Complex Process

The baseband chip is the brain of a handset’s wireless modem working in coordination with a transceiver that controls the receiving and sending of wireless signals via the antenna and the baseband processor enables a device to communicate through cellular networks. Building the baseband components is a complex process which is difficult and since Intel’s introduction of XMM 7160, only Qualcomm’s MDM9615M that is inside Apple’s iPhone and iPad had created a baseband processor which integrated support of 3G, LTE and EDGE networks within a single package.

Apple’s decision and choice of producing its own wireless modems could probably be motivated in part by a desire in improving power efficiency and according to Appleinsider, JP Morgan analyst Rod Hall, who believes that Apple’s current logic board designs uses a baseband chip which is separate from the A-series application processor of the company and that it may be looking out for ways to integrate the two chips into a single package.

Current Vendor – Qualcomm

Apple’s current baseband vendor, Qualcomm had done the same with Snapdragon processors and according to Rod Hall, he believes that the company would be opening a licensing arrangement which would enable Apple to integrate Qualcomm baseband IP on A-series cores wherein with this type of an arrangement it would be beneficial to Qualcomm.

This is due to Apple having accounted for approximately one quarter of Qualcomm’s 2012 revenues and losing business would mean significant financial losses. Inspite of the challenges faced, Hall is of the opinion that Apple does have the ability as well as internal knowledge on how to attract the talents that are necessary for successful developments of its own modem technology, from its successor of the A-series processors. Apple seems to be way ahead of Qualcomm from its desktop class A7 chip which powers the iPhone 5s, iPad Mini and iPad Air along with Retina display.

Friday, April 11, 2014

Apple’s New Generation Headphone

Apple’s New Generation Headphone
Apple has applied for patent for new pair of headphones with enhanced technology inside and is once again looking to advance the design of its bundled iPhone EarPods by implanting accelerometer in the ear bud area loaded with on-board sensors with two microphones which could recognize voice activity as well as activate and tune beamforming microphone arrays.

As per patent application by the US Patent and Trademark Office, Apple has been investigating to enhance headphone device which can recognize the user’s voice along with multiple on board microphones, turning on noise suppression systems besides directing beam forming mics towards a user’s head. These new generation headphones will come with microphones to automatically record voice output when the user starts talking which will also come with noise cancellation feature by default to subdue the background noise due to the second microphone on the headphones.

Headphone featuring built-in Accelerometer

It will also have microphones on the wires just as a standard handset and the earphones can automatically judge when the user begins talking due to the beamforming microphones. Besides this, the headphone featuring the built-in accelerometer will also judge when the user begins talking with the vibration created through the vocal chords which means that the microphone will be active to pick up voice from the user at any point of time.

Moreover the user will also get access to the device with the help of the Siri features which could be very helpful while driving or performing other activities. Presently most of the users depend on headphones for voice calls as well as music and Apple has brought about a change with its enhanced pair of headphones.

Sensor, Voice Activity Detector

Its system of working begins with the accelerometer and in some embodiment; the sensor is utilized as a voice activity detector – VAD to detect vibration generated by the user. The voice speech both generated by the user’s vocal chords as well as the unvoiced speech generated without the vocal chords are detected by the accelerometer through vibration of the tissue and bone.

The detected accelerometer vibration data is then joined by signals from the front and rare facing microphones which are embedded on one or both of the ear buds. The accelerometer in some embodiments is tuned to detect lower frequency vibration known as VADa system and alternatively, from the two microphones signals output could be used in determining voiced speech or a VADm arrangement.

Effective Beamforming Algorithm

The VAD system functions by scanning both voiced –VADv as well as unvoiced –VADu signals which are combined with the other signals for noise suppression circuit. Depending on the information gathered, noise from the area around the user could be estimated with an effective beamforming algorithm which can be applied to the system’s various microphone arrays.

Mics located in the headphones in some embodiments and along the unit’s wire were set to a general beamform focused at the user’s face. Besides this a more active beamformer is described which can be adaptively steered based on VAD output while alternatively a noise suppression system could also be made effective by steering microphones towards the ambient noise which may not be associated with voiced or unvoiced speech that is removed from the signal.