Ainol Novo 7 Crystal 2 Is a Quad-Core Jelly Bean Tablet Worth Less Than $100

Android tablet prices have dropped and dropped and dropped for the past couple of years, but I’m sure you never suspected you could get a quad-core Jelly Bean-based slate for less than 100 bucks. That’s just crazy, isn’t it?

And yet it’s true. Ainol, a manufacturer that has been on our radar in the past with such dirt-cheap tabs as the Novo 7 Crystal, Novo 10 Captain and Novo 7 Venus, has done it again! The spanking new Novo 7 Crystal 2 looks better than its predecessor, has cooler specs and is also cheaper, all while coming with free international shipping via LighTake.

Sure, you should not expect a level of performance closer to, say, that of the Nexus 7, but for just $94.89 the Novo 7 Crystal 2 is an amazing bargain, no matter how you look at it.

But you know what the absolute craziest thing is about this 7-incher? It doesn’t even have the worst specs in the world, as you might thing. Yes, the LCD capacitive screen is sub-par, boasting a 1,024 x 600 pixels resolution.

And yes, the 1.5 GHz quad-core Cortex A9-based ATM7029 CPU is likely slower than several dual-core chips around. But the Novo 7 Crystal 2 comes with 1 GB of RAM, 8 GB of on-board storage and microSD support.

There’s also a front-facing camera, albeit a very modest 0.3 MP one. And what can one not like about the on-board Android 4.1 Jelly Bean with full Google Play support? I’m telling you, Ainol could have priced this baby at $120 or $130 and it would still look like a tab with a decent quality-price ratio.

Granted, the thing is not exactly the thinnest or lightest, but it weighs in at 338 grams and measures 10.5 mm in width, which is almost identical to Nexus 7’s numbers.

Other features include Wi-Fi 802.11 b/g/n, Flash support and a decent 3,700 mAh battery, but sadly there’s no GPS or Bluetooth. Then again, Ainol did have to cut a few corners to keep the price so low, right?

Regardless of that, I said it once and I’ll say it again. The Ainol Novo 7 Crystal 2 is an amazing bargain, and, if you’re in the market for a portable tab that won’t make you break the piggy bank, you’d be fools to pass on it. Are you in or are you out?

Via [GizChina]

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MSI 770T-C45

All Solid Capacitors

Capacitors are the most important component for electronic product's power supply. The quality of the capacitors can impact the stability of the entire system and risk of product failure. Currently there are two types of capacitors, electrolytic capacitors and solid capacitors. Compared to electrolytic capacitors, solid capacitors have a longer lifespan, and provide a more stable power under high temperatures. More importantly, solid capacitors do not have any liquid materials inside, and thus will not suffer a leak which would infringe upon the product’s stability. With such benefits is it no wonder that solid capacitors are very important for product quality's improvement.

APS (Active Phase Switching)

Active Phase Switching, APS, technology is an intelligent design that helps to save energy on MSI’s motherboards. The underlying idea is to switch off the power supply as soon as no electricity is needed, and when the system needs more resources again, APS will automatically adjust electricity supply accordingly. APS will automatically detect your processor’s loading at any given time and save energy accordingly. This is only possible by means of a very advanced power controlling technology. Other than software-based solutions, APS technology stands out from MSI's own research. The specially developed IC chip can operate automatically depending on the demands of the power supply, which is to reduce the total power usage.

M-Flash

Compared to common motherboard which need extra BIOS chips, MSI’s M-Flash has a double advantage which doesn’t need extra components and secondly, all your BIOS data will be saved in the USB drive. The stored data does not only have backup and upgrade function, moreover it can also be seen as a portable BIOS chip which is actually able to boot up your PC.

Features

• Backup/Restore Your BIOS to/from Any USB Flash Disk
• Avoid Unnecessary Repair Due to Accident Failures During The Upgrading Process
• Earn more BIOS Lifespan by Reducing Unnecessary Rewriting Process

i-Charger

Mobile consumer appliances are getting more and more attention in current day fast moving life style, with smart phones and tablets almost becoming a fashion accessory. However, many ordinary personal computers cannot charge some of these devices, making it difficult to stay connected. The MSI i-Charger is a Windows resident program capable of revising the power supply mode of your USB port to become more powerful. Once your phone or tablet is connected to your USB port, the i-Charger sends a signal to initiate its charging circuit, making it a really smart and convenient charging solution for mobile computing needs.

Features

• Automatically Detect & Charge Your Smart Phone or Tablet
• Support Microsoft Windows 98SE/ME/2000/XP/Vista/7 32Bit

Live Update 5

MSI Live Update 5 is a powerful and useful application for updating the latest BIOS and Drivers, saving you time and lowers the risk of updating. End-users can install and run the Live Update 5 software on their computers with the companion CD or downloading the app from the MSI website.

Features

• Automatically Detect the BIOS/Driver/VGA/Utility Update
• Support Microsoft Windows 98SE/ME/2000/XP/Vista/7 32Bit

Live Update Online

MSI Live Update Online is a powerful and useful application for updating latest BIOS and Drivers, which can save your time for searching and lower the risk while updating. Live Update Online is online services exclusively. End-users only have to connect to the download center and enable the Live Update Online function, and the updating will continue via the web pages completely. Live Update Online offers the latest BIOS, drivers and utilities from MSI for automatic updating. Through the user-friendly operation, end-users can update the system easily and increase performance immediately.

Unlock CPU Core

MSI’s Unlock CPU Core technology, exclusive from MSI, can unlock the hidden cores in the CPU by making a few selections from the BIOS. By unlocking a Phenom II X2 CPU into a Phenom II X4 CPU, users can boost the CPU performance over 104%. In Addition, MSI discovers the ability to unlock Phenom II X4 960T to a 6 core CPU through the same BIOS setting. At same time, MSI was the first who could unlock a 4-core AMD CPU to a 6-core because MSI does not use any "unlock" chip on our motherboards. MSI engineers developed a BIOS technology to unlock cores which can be easy upgraded via new BIOS. Because of this flexible BIOS core unlock feature, MSI can today announce that it made BIOS unlocking easy and accessible for the audience who doesn’t know their way around the BIOS. This new MSI software tool allows users to unlock CPU cores from Windows with just a few simple clicks, no need to enter the BIOS.

Easy OC Switch

Every user desires more performance. MSI has special Easy OC Switches to provide that accessibility to all users. This great technology makes it easier to tweak the core clock settings. There's no need to have a detailed understanding; with just a few simple steps, everyone is able to get the most out of their motherboards. With a single click, the whole system will increase by 5%-20% performance, making overclocking a very easy thing to do.

MAX FSB

In order to allow the average user to easily enjoy the fun and performance of overclocking, MSI provides the MAX FSB easy overclocking technology. Users only need to make the appropriate selection in this BIOS menu, reset the system and in 10-15 seconds time, viola! The processor will be overclocked to its highest possible FSB and the user doesn’t have to fret about understanding any complicated technical information. Simply set, sit back, and enjoy.

Cool'n'Quiet

AMD Cool'n'Quiet™ Technology reduces heat and noise so you can experience amazing performance without distraction. Combined with core enhancements, included in the AMD processors, that can improve overall power savings, deliver better multitasking and energy efficiency. Cool'n'Quiet technology can automatically adjust processor ratio to throttle CPU speed with four modes.

Features

• Independent Dynamic Core Technology
• Dual Dynamic Power Management™
• AMD CoolCore™ Technology
• AMD Wideband Frequency Control
• Multi-Point Thermal Control

Specifications

CPU (Max Support)	Phenom
AM3 CPU Ready	Y
FSB / Hyper Transport Bus	Up to 5200MT/s for AM2+ CPU 2000/1600MT/s for AM2 CPU
Chipset	AMD® 770+SB710
DDR2 Memory	DDR2 533/667/800/1066
Memory Channel	Dual
DIMM Slots	4
Max Memory (GB)	Max Memory (GB)
PCI-Ex16	1
PCI-E Gen	Gen2 (1x16)
PCI-Ex1	2
PCI	3
IDE	1
SATAII	6
RAID	0/1/0+1
LAN	10/100/1000*1
TPM	1
USB 2.0 ports (Rear)	6
Audio ports (Rear)	Audio ports (Rear)
Serial ports (Rear)	1
Form Factor	ATX
APS	Y

MSI 770T-C45 Download Driver Windows 7 32/64bit here

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iPad Mini

The iPad Mini (stylized and marketed as iPad mini) is a mini tablet computer designed, developed, and marketed by Apple Inc. It was announced on October 23, 2012, as the fifth major product in the iPad line and the first to feature a reduced screen size of 7.9 inches, in contrast to the standard 9.7 inches. It features similar internal specifications as the iPad 2, including its display resolution.

It was released on November 2, 2012 in nearly all of Apple's markets

History

Speculation about the iPad Mini began as early as April 2012, as competition rose from 7" devices such as the Kindle Fire and the Nexus 7. Rumors initially suggested it would feature a 7.85" display at 1024 × 768 pixels. It was originally thought to be announced at the Apple Special Event on September 12.

On October 16, 2012, Apple announced a media event scheduled for October 23 at the California Theatre in San Jose, California. The company did not predisclose the subject of the event, but it was widely expected to be the iPad Mini. On the day of the event, Apple CEO Tim Cook introduced a new version of MacBook family and new generations of the MacBook Pro, Mac Mini, and the iMac before the fourth-generation iPad and the iPad Mini.

Software

The iPad Mini shipped with iOS 6.0.1. It can act as a hotspot with some carriers, sharing its Internet connection over Wi-Fi, Bluetooth, or USB, and also access the App Store, a digital application distribution platform for iOS that is developed and maintained by Apple. The service allows users to browse and download applications from the iTunes Store that were developed with Xcode and the iOS SDK and were published through Apple. From the App Store, GarageBand, iMovie, iPhoto, and the iWork apps (Pages, Keynote, and Numbers) are available.

The iPad Mini comes with several pre-installed applications, including Siri, Safari, Mail, Photos, Video, Music, iTunes, App Store, Maps, Notes, Calendar, Game Center, Photo Booth, and Contacts. Like all iOS devices, the iPad can sync content and other data with a Mac or PC using iTunes, although iOS 5 and later can be managed and backed up with iCloud. Although the tablet is not designed to make telephone calls over a cellular network, users can use a headset or the built-in speaker and microphone and place phone calls over Wi-Fi or cellular using a VoIP application, such as Skype. The device has dictation, using the same voice recognition technology as the iPhone 4S. The user speaks and the iPad types what they say on the screen provided that the iPad is connected to a Wi-Fi or cellular network.

The device has an optional iBooks application, which displays books and other ePub-format content downloaded from the iBookstore. Several major book publishers including Penguin Books, HarperCollins, Simon & Schuster and Macmillan have committed to publishing books for the device. Despite being a direct competitor to both the Amazon Kindle and Barnes & Noble Nook, both Amazon.com and Barnes & Noble offer e-reader apps for the iPad.

Hardware

The iPad Mini features partially the same hardware as the iPad 2. Both screens have resolutions of 1024 x 768, but the iPad Mini has a higher pixel density than iPad 2 (163 PPI vs 132 PPI). Unlike the iPad 2, it has 5 MP and 1.2 MP cameras and the Lightning connector. The audio processor in iPad Mini is the same found in iPhone 5 and iPad 4th generation, which allows the iPad Mini to have Siri and voice dictation unlike the iPad 2. The iPad Mini has a revised version of the PowerVR SGX543 series, with dual core graphics. The Graphics processor is similar to the one in the iPhone 5. - source

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Novo7 Tech iFive Mini3 a 7.9 Inch Tablet that Looks like iPad Mini

The iFive Mini3 is getting popular because it resembles the iPad Mini in terms of the design, and all ipad mini cases will fit the iFive Mini3.

iFive Mini3 Key Features:

• 7.9 Inch IPS Capactive Touch Screen (1024x768 Resolution)
• Android 4.2 Jelly Bean
• CPU: RK3188 Quad Core
• GPU: Mali 400 MP4
• RAM 1GB,DDR3
• Storage 16GB expandable up to 32GB micro SD Card
• Shell Material Plastic
• WIFI 802.11 b/g/n
• 2.0MP Front camera
• 5.0MP Back Camera
• Li-ion 4100mAH Battery
• Available ports 1 x Micro USB OTG Port, 1 x Micro SD Card slot, 1 x Earphone jack, 1 x Micro HDMI port

Sugested Retail Price : 8,295Php

With Dimensions: 202.2 x 135.6 x 6.48mm, this tablet is really thin, and the iFive Mini3 has only one physical button as compared to iPad mini which has 3. And whats great about it is you can use those iPad Mini cases even smart covers but do not expect the magnetic function to work.

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Trendnet TEW-714TRU Pocket Wireless Router Review

You have to wonder why there are so many types of electrical plugs in the world. It’s a pain in the neck that Trendnet remedies by providing three swappable plugs: One for use in the UK, one for use in the rest of Europe, and one for North America. Since most other countries use one of those three types of adapters, Trendnet figures its router can plug into 90 percent of the world’s electrical outlets.

The router itself is relatively small; think of a slightly oversized wall wart. It plugs directly into an electrical outlet, much like the Netgear Trek and the TP-Link TL-WR710N. It can operate in one of three modes: As a wireless router connected to a DSL or cable modem or a hardwired network; in WISP mode, connected to a Wi-Fi hotspot; or as a repeater to extend the range of an existing wireless network. You slide a button on the side of the device to choose which mode you’d like it to operate in.

The Trendnet has one ethernet port and two USB ports. One is a USB 2.0 Type A for sharing files stored on a connected storage device, but there is no media server onboard for streaming music, video, or photos.

The second USB port is used only for charging small devices, such as a smartphone, tablet, or media player (it will deliver between 1.1- and 2.1 amps of power). There is no provision for using a 3G, 4G, or LTE USB modem with this router. An on/off button on the other side of the router lets you turn off the router’s network function without disabling its USB charging function.

Like most of the other travel routers in this roundup, the TEW-714TRU supports the 802.11b/g/n standards, delivering one 150Mbps spatial stream on the 2.4GHz frequency band. The router comes from the factory preconfigured with a secure password, and its default SSID, network password, and admin login and password are printed on a label that gets hidden the moment you plug the router into the wall (because it’s on the same side as its prongs). A WPS (Wi-Fi Protected Setup) button on the side of the router simplifies the process of adding clients to its wireless network, but you’ll still need to know the admin login info to access its user interface.

In terms of performance, the TEW-714TRU is way in the back of the pack, but it's faster than the last-place TP-Link TL-WR710N. At close range, with the client nine feet from the router and in the same room, it mustered TCP throughput of just 18.4Mbps. The first-place-finishing Netgear Trek PR2000 hit 87.7Mbps here. The Trendnet finished next to last when the client was in the kitchen, 20 feet from router and separated by one wall, delivering TCP throughput of 16.2Mbps.

It wasn’t able to sustain a connection at all when I moved the client to my home office, which is 65 feet from the router and separated by several walls.

Power tips uber alles?

The TEW-714TRU’s power tips will benefit frequent world travelers, and its ability to charge mobile devices and share files from an attached USB storage device are attractive features. But this router’s Wi-Fi performance leaves a bit to be desired.

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Undertanding HSPA+ and LTE

We have all marveled at the revolution in mobile communications technology. The 1980′s saw the introduction of the “brick” style wireless mobile phone accessible to a privileged few. Since then, we have seen a lot of shifting trends in designs and capabilities, but an exponential increase in availability and popularity. We now live in a world boasting over 6 billion mobile phone users, with most high-end devices mimicking the capabilities of a computer, featuring dual-core or even quad-core processing capability.

I still recall a time when the primary purpose of a mobile phone was voice communication. Now, with smartphones bursting onto the scene in ever growing numbers, the mobile landscape is changing rapidly. With devices now featuring messaging, social networking connectivity, email and browsing capabilities, and the ability to stream or download high-quality music and videos, making and receiving calls has almost become a secondary feature.

Of course, none of this would be possible without an equally impressive evolution in mobile networking technology. From first generation communication networks to the current 4G craze, these advances have made it incredibly easy for any user to always be connected. Today we will compare the latest networking technologies, namely HSPA+ and LTE, and take a look at what the future holds.

History

Courtesy of Ofcom

First generation mobile networks were basic analog systems designed purely for voice calls. Mobile devices and call rates were very expensive and therefore not available to everybody. The early nineties saw the introduction of the first digital cellular networks. 2G brought with it improved sound quality and a higher capacity, allowing for data services, albeit at very low speeds up to 14.4 kbps. Further advances in this technology introduced GPRS and EDGE features with quicker data speeds between 40kpbs to 100kbps.

This was followed by the 3G revolution. Apart from wide-area voice telephony, it introduced high-speed internet access, far improved audio and video streaming capabilities, support for video calls and conferences, and internet TV. With effective speeds ranging from 128kbps to 384kbps, the advent of 3G completely changed the way people use their mobile phones.

The effective entry of the tablet and increasing dependency on handheld mobile devices led to demand for even faster speeds and connectivity options, leading to a new standard, HSPA+, followed by 4G LTE.

What is HSPA+ and LTE?

HSPA+

HSPA+ or Evolved High Speed Packet Access, is a souped-up version of HSUPA and HSDPA 3G standards with speeds comparable to the newer LTE networks. Theoretical speeds are said to feature download speeds up to 168Mbps and uplink of 22Mbps. These are of course theoretical speeds, with the actual speed available to users being much lower. While most HSPA+ networks around the world boast a theoretical 21Mbps(download) speed, T-Mobile(USA) and Deutsche Telekom(Germany) feature 42Mbps networks. A hotly debated issue is the 4G tag offered by cellular network companies to advertise their HSPA+ networks(T-mobile and AT&T), while most accept that it should be considered, at most, a 3.75G network.

LTE

On the other hand, LTE, or Long Term Evolution, is considered a “true” 4G network. Theoretical speeds boast downlink speeds of 300Mbps and uploads of 75Mbps. LTE, which is an IP-based system, is a complete redesign and simplication of 3G network architecture resulting in a marked reduction in transfer latency. Because of this, LTE is not compatible with 2G and 3G networks and thus, functions on an entirely different wireless spectrum. Unfortunately, this means that erecting an LTE network requires it to be built from the ground up. This is one of the main factors behind the delayed launch of complete 4G LTE networks.

Bottom Line

HSPA+ is the tip of the mountain with 3G technology, and LTE is simply the foundation for a new mountain. LTE, also known as 4G, is the most advanced telecommunications technology currently available, and is one that defines a clear path toward future developments, making it the most attractive choice for carriers these days.

Speed Comparison

Neil Shah

The biggest question consumers have is whether the additional cost of buying an LTE-enabled device and the higher data charges are worth it, compared to the “slower” but relatively cheaper 3G and HSPA+ networks. Let’s take a look.

Under consideration are speed comparisons based on the recently conducted wireless speed tests by PCWorld, of the major network carriers in the US (AT&T, T-Mobile, Verizon, and Sprint). For our purposes, we are going to compare the LTE-based AT&T and Verizon 4G networks, against the 42 Mbps HSPA+ based T-Mobile “4G” network. While Sprint and T-Mobile both aim towards launching their LTE networks soon, as of now, they are based on Wi-Max technology and HSPA+ respectively.

PCWorld, along with their testing partners Novarum, conducted the tests using Ookla’s speed test app in 13 cities across the US including San Francisco, Los Angeles, San Jose, Seattle, Las Vegas, Denver, Dallas, Chicago, New Orleans, New York, Washington D.C., and Boston.

There are a few key points to note from the chart above:

• T-Mobile’s HSPA+42 network performs admirably against, what is supposed to be, far superior LTE networks. The high speeds offered by this network should be more than enough for most users.
• LTE is fast! While HSPA+ is definitely good enough, the LTE networks(in their current state) are 20-30% faster. A big plus for all the speed demons out there.
• Unrelated to the topic, but is anyone as surprised as I am at how poorly Sprint’s Wi-Max network performed?

Granted these results for HSPA+ aren’t standard the world over, with most networks featuring 21Mbps download capabilities. But all these network carriers are planning to upgrade to 42Mbps and even 84 Mbps networks, so HSPA+ still has a lot of potential, and is certainly “good enough” for now.

Coverage

Courtesy of GSA

As you can see from the map above, 4G LTE is certainly the network of the future. With the much faster speeds, higher efficiency, and increased reliability, it is the next logical step in network technology development. There are some key points to note about the map though, which shows that LTE coverage isn’t as “colorful” as it seems:

While a lot of countries are marked “red” indicating countries with commercial LTE services, it is slightly misleading. For example, while India as a whole is marked, only one carrier(Airtel) offers 4G LTE services in only one city(Kolkata) thus far. Of course, plans are in the works to rollout the network eventually, it will take quite a lot of time before complete coverage is achieved.

The above point is true for most countries, with none boasting a full coverage LTE network. Full coverage in some regions will be achieved at the earliest by late-2013 to early-2014, with most others much later.

On the other hand, HSPA+ is more along the lines of a software enhancement that elevates 3G data network performance. Of course, the process isn’t as simple as it sounds, but it is definitely easier than building a completely new LTE supported network. As such, any carrier that has an established 3G network, have upgraded to an HSPA+ network. With over 100 network carriers worldwide featuring HSPA+ networks with most boasting over 80% coverage. To keep up with current LTE speeds, carrier networks are also upgrading the their “slower” 21Mbps networks to 42Mbps or even 84Mbps (theoretical) download speeds.

Cost

As mentioned earlier, the biggest issue with taking advantage of the faster speeds of a 4G LTE network is coverage. Availability is still quite limited but that will of course, get better. What surprised me is the lack of a difference in cost between a carrier’s HSPA+ and LTE networks.

• AT&T and Verizon have standard data rates of $50 for 5GB regardless of whether you have access to 3G, HSPA+, or 4G LTE networks.
• T-Mobile, which currently features a 42Mbps HSPA+ networks, also features the same data rates.
• In India, while available only in Kolkata so far, 4G LTE costs Rs 1399(~$28) for 9GB, with HSPA+ being Rs 1250(~$25) for 10GB.

Of course, I’ve only used the information from two places I’m most familiar with, so there might be other networks worldwide where there is a more evident price difference (or not), so if there are, do let us know in the comments section.

Device availability

HSPA+ and LTE variations of the Samsung Galaxy Nexus

Device availability is another area where I consider LTE to be at a disadvantage. Here’s why:

• Most smartphones and tablets (3G versions) released in the last 2 years or so can access the faster speeds offered by HSPA+ networks.
• On the other hand, accessing a LTE network requires a significant hardware change, i.e. the need for an LTE radio.
• Options for LTE capable devices are comparatively limited and generally range towards the higher end of the price spectrum.
• There has been an incompatibility issue with latest Nvidia quad-core Tegra 3 processor and LTE radios, as seen with the HTC One X where the international version features the quad-core processor, and the US releases with LTE radios “falling back” on Qualcomm dual-core Snapdragon S4 processors. Whether this issue will be prevalent in other quad-core processors such as the Samsung Exynos 4412, is yet to be seen.
• LTE radios are also infamous for being a huge drain on battery life.

The Future

HSPA+

Evolution of HSPA

HSPA+, with its theoretical 168Mbps downlink speeds, still wasn’t the pinnacle of HSPA technology. Back in 2010 began talk of LTHE or Long Term HSPA Evolution. LTHE brought with a lot of advantages including:

• Backward compatibility with existing WCDMA and HSPA networks. This provided the possibility of an easy transition to LTHE as opposed to a network upgrade to LTE.
• Theoretical download speeds up to a whopping 672 Mbps.
• Carriers and hardware companies claimed that LTHE could have been ready for deployment by 2013.

Unfortunately, almost every network around the world has decided to move onto LTE as their network for the future. HSPA+ networks will likely be upgraded to the 42Mbps or even 84Mbps download capability, but now, it seems like that is as far as this evolutionary technology will be pushed.

LTE

Courtesy of Teliasonera

While HSPA+ was the peak of 3G technology, the current variation of 4G LTE is only the first step in this next stage, opening up numerous possibilities for much further advancement in this field. It is somewhat strange that advances in LTE technology are already being spoken about when the “original” standard networks aren’t even close to being fully established. Yet, that is the rapid speed in which the tech world progresses. Let’s take a look at some of these developments:

• TD-LTE: TD-LTE or Time-Division LTE was developed by China Mobile over the last few years. Unlike LTE networks which carries two separate signals for data traveling in either direction, TD-LTE features a single channel and allocated upload and download bandwidth depending on your usage. This accounts for higher data speeds. TD-LTE is also compatible 4G WiMax and it will easier to upgrade from WiMax to TD-LTE than to LTE.
• LTE Advanced: LTE Advanced is a further evolution of current LTE networks which brings with it theoretical peaks of 1GBps download speeds, increased spectrum efficiency(upto 3 times more bandwidth), and reduced latency. Like the upgrade from HSPA to HSPA+, a move from LTE to LTE-Advanced is also a software deployment upgrade.
• TD-LTE will also see a shift to TD-LTE advanced in the future.

Conclusion

Advantages of LTE over HSPA+

• The most obvious advantage is the higher data speeds
• Much better spectrum efficiency
• Far lower latency
• LTE has a simpler architecture compared to an HSPA+ network

Advantages of HSPA+ over LTE

• HSPA+ is an already established network, whereas complete LTE coverage still has a while to go
• HSPA to HSPA+ evolution required much less investment in infrastructure and was less costly to upgrade as opposed to LTE which needs a completely new network built from the ground up.
• LTE requires specific LTE radio featured devices, whereas HSPA+ is available to any user with a 3G enabled phone.

As you can see, LTE is definitely the way of the future, and the potential with this technology is incredible. But I still think there are a lot of factors that lead me to conclude that HSPA+ networks are certainly more than enough for now.

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myBRO : Green Packet DV235T WiFi Weak Signal Solved

On my previous post I have experimented my Green Packet DV235T 4G WiMAX wireless broadband modem router CPE with the  leaked stock firmware (web_update-3_5G-v2.10.14-g.1.0.5-gp.tar) on my device the SmartBro new product aka myBRO. So far so good after upgrade it did not brick the device with the said stock firmware but it is mismatch with the hardware model it is suppose for WIXFMM-129 and not for WIXFMM-114 the DV235T board. There are few bugs that we netizens have faced by upgrading with this new updates, although I can connect to the network but the most concern among others is the WLAN. The WiFi signal drops significantly even if you are closer or nearer to the device you will really get disappointed on hooking your Smartphone, Tablet or even with your Lappy. To solve this bugs the only way to go is to upload the correct stock firmware (web_update-2_3G-v2.10.14-g1.0.4-gp.tar) of the device, so here's how to do it. Some of the screenshot I have provided as guide to those who are newbies to the myBRO DV235T CPE.

Update: I added this screenshot above because of so many misleading forumers  seeding/leaking the Green Packet Stock Firmware appearing to be legit or the right one, but you will end up with discouragement when you find out it is just same firmware that same guy leaching it. If you really want to make sure that you uploaded the correct firmware to your myBRO DV235T is correct here's the inside to the two (2) Green Packet stock firmware comparison.

First, login to the Green Packet DV235T with the default username and password as "admin".

Next, navigate to the Main Menus above on the graphical user interface (gui) of the DV235T as you can see on the screenshot below. On the left corner Sub-menu click Upgrade button, then  the Browse button and locate your downloaded Green Packet DV235T stock firmware (web_update-2_3G-v2.10.14-g1.0.4-gp.tar) then Upload.

If you are sure now with the file that you have download is the correct or the appropriate stock firmware for the myBRO DV235T 4G WiMAX wireless modem router, then its time for you to upload it.

Finally, just click the Apply button to confirm that the stock firmware to be uploaded to the CPE. Wait, the progress indication bar will appear from zero (0) until it successfully to be completed at 100%.

After the 100% progress indication bar completed the firmware upgrade now is done, click the button Close then the myBRO DV235T Green Packet CPE will reboot automatically in 70 seconds.

Wait until the graphical user interface (gui) login page will refresh and you will be prompted again to enter the device with same username and password. Now everything will be in placed your DV235T is now already being updated with the right stock firmware, the WiFi issue now is already solved.

You can leave your message on my comment box, I also offer repairs and upgrade for myBRO DV235T just email or PM me I can help you. Enjoy!

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Trouble setting up more than 4 network adapters in VirtualBox

I've been trying to setup the 8 network adapters that VirtualBox is supposed to support, through the command line. I need them as bridged networks (because I use them to forward ports from a server installed in the VM).

So, the commands I've used go like this:

VBoxManage modifyvm  --nic5 bridged
VBoxManage modifyvm  --bridgeadapter5 "Realtek PCIe GBE Family Controller"
VBoxManage modifyvm  --nicpromisc5 allow-all

And so on for the other 3. I set them up as bridged, set the adapter name to my host network adapter name, and set promiscuous mode to allow all. They use the adapter PCnet-FAST III (Am79C973). Checking with the showvminfo command, I get this:

C:\Program Files>cd Oracle

C:\Program Files\Oracle>cd VirtualBox

C:\Program Files\Oracle\VirtualBox>VBoxManage showvminfo XP2
Name:            XP2
Groups:          /
Guest OS:        Windows XP (32 bit)
UUID:            b53a67f9-7fba-43a0-9f2c-a13e9f1249ab
Config file:     C:\Users\MyUserName\VirtualBox VMs\XP2\XP2.vbox
Snapshot folder: C:\Users\MyUserName\VirtualBox VMs\XP2\Snapshots
Log folder:      C:\Users\MyUserName\VirtualBox VMs\XP2\Logs
Hardware UUID:   b53a67f9-7fba-43a0-9f2c-a13e9f1249ab
Memory size:     256MB
Page Fusion:     off
VRAM size:       18MB
CPU exec cap:    40%
HPET:            off
Chipset:         piix3
Firmware:        BIOS
Number of CPUs:  1
PAE:             off
Long Mode:       off
Synthetic CPU:   off
CPUID overrides: None
Boot menu mode:  message and menu
Boot Device (1): Floppy
Boot Device (2): DVD
Boot Device (3): HardDisk
Boot Device (4): Not Assigned
ACPI:            on
IOAPIC:          off
Time offset:     0ms
RTC:             local time
Hardw. virt.ext: on
Nested Paging:   on
Large Pages:     on
VT-x VPID:       on
VT-x unr. exec.: on
State:           running (since 2014-04-30T11:22:59.596000000)
Monitor count:   1
3D Acceleration: off
2D Video Acceleration: off
Teleporter Enabled: off
Teleporter Port: 0
Teleporter Address:
Teleporter Password:
Tracing Enabled: off
Allow Tracing to Access VM: off
Tracing Configuration:
Autostart Enabled: off
Autostart Delay: 0
Default Frontend:
Storage Controller Name (0):            IDE
Storage Controller Type (0):            PIIX4
Storage Controller Instance Number (0): 0
Storage Controller Max Port Count (0):  2
Storage Controller Port Count (0):      2
Storage Controller Bootable (0):        on
IDE (0, 0): E:\Programas\VirtualBox\Guindous XP.vdi (UUID: 70549b55-f222-4b47-be
78-52ba486e880d)
IDE (1, 0): Empty
NIC 1:           MAC: 08002780847C, Attachment: Bridged Interface 'Realtek PCIe
GBE Family Controller', Cable connected: on, Trace: off (file: none), Type: Am79
C973, Reported speed: 0 Mbps, Boot priority: 0, Promisc Policy: allow-all, Bandw
idth group: none
NIC 2:           MAC: 080027B2180A, Attachment: Bridged Interface 'Realtek PCIe
GBE Family Controller', Cable connected: on, Trace: off (file: none), Type: Am79
C973, Reported speed: 0 Mbps, Boot priority: 0, Promisc Policy: allow-all, Bandw
idth group: none
NIC 3:           MAC: 080027803511, Attachment: Bridged Interface 'Realtek PCIe
GBE Family Controller', Cable connected: on, Trace: off (file: none), Type: Am79
C973, Reported speed: 0 Mbps, Boot priority: 0, Promisc Policy: allow-all, Bandw
idth group: none
NIC 4:           MAC: 080027DE9E9D, Attachment: Bridged Interface 'Realtek PCIe
GBE Family Controller', Cable connected: on, Trace: off (file: none), Type: Am79
C973, Reported speed: 0 Mbps, Boot priority: 0, Promisc Policy: allow-all, Bandw
idth group: none
NIC 5:           MAC: 080027918504, Attachment: Bridged Interface 'Realtek PCIe
GBE Family Controller', Cable connected: on, Trace: off (file: none), Type: Am79
C973, Reported speed: 0 Mbps, Boot priority: 0, Promisc Policy: allow-all, Bandw
idth group: none
NIC 6:           MAC: 08002719AAFC, Attachment: Bridged Interface 'Realtek PCIe
GBE Family Controller', Cable connected: off, Trace: off (file: none), Type: Am7
9C973, Reported speed: 0 Mbps, Boot priority: 0, Promisc Policy: allow-all, Band
width group: none
NIC 7:           MAC: 08002739E2E1, Attachment: Bridged Interface 'Realtek PCIe
GBE Family Controller', Cable connected: off, Trace: off (file: none), Type: Am7
9C973, Reported speed: 0 Mbps, Boot priority: 0, Promisc Policy: allow-all, Band
width group: none
NIC 8:           MAC: 0800277BD34B, Attachment: Bridged Interface 'Realtek PCIe
GBE Family Controller', Cable connected: off, Trace: off (file: none), Type: Am7
9C973, Reported speed: 0 Mbps, Boot priority: 0, Promisc Policy: allow-all, Band
width group: none
Pointing Device: USB Tablet
Keyboard Device: PS/2 Keyboard
UART 1:          disabled
UART 2:          disabled
LPT 1:           disabled
LPT 2:           disabled
Audio:           enabled (Driver: DSOUND, Controller: AC97)
Clipboard Mode:  Bidirectional
Drag'n'drop Mode: Bidirectional
Session type:    GUI/Qt
Video mode:      1920x1002x16 at 0,0
VRDE:            disabled
USB:             enabled
EHCI:            disabled

USB Device Filters:



Available remote USB devices:



Currently Attached USB Devices:



Bandwidth groups:  

Shared folders:  

VRDE Connection:    not active
Clients so far:     0

Video capturing:    not active
Capture screens:    0
Capture file:       C:\Users\MyUserName\VirtualBox VMs\XP2\XP2.webm
Capture dimensions: 1024x768
Capture rate:       512 kbps
Capture FPS:        25

Guest:

Configured memory balloon size:      0 MB
OS type:                             WindowsXP
Additions run level:                 3
Additions version:                   4.1.10 r76836


Guest Facilities:

Facility "VirtualBox Base Driver": active/running (last update: 2014/04/30 11:23
:09 UTC)
Facility "VirtualBox System Service": active/running (last update: 2014/04/30 11
:23:15 UTC)
Facility "VirtualBox Desktop Integration": active/running (last update: 2014/04/
30 11:23:25 UTC)
Facility "Seamless Mode": active/running (last update: 2014/04/30 11:23:09 UTC)
Facility "Graphics Mode": active/running (last update: 2014/04/30 11:23:09 UTC)

So all of the adapters have the exact same configuration, except for the MAC addresses, which is all right.

But on opening the VM (which uses Windows XP), it seems unable to manage more than four network adapters at once. Whatever four adapters were the last to connect show an error icon and don't work.

So at this point, I don't know what else am I supposed to do. I don't find any info saying I should touch any more settings in VirtualBox, and I'm unsure if this is a VBox error or a Windows XP error.

I failed to find any official reference to a maximum number of nics supported by XP. However, I found this thread, where a user claims:

I've seen as many as eight working as a result of VMWare Workstation being installed (they were virtual NICs). I expect it depends on your selected hardware more than anything.

So technically what I'm trying should be viable.

I played around with the virtual hardware type a little bit, but they just wouldn't work.

Finally it works correctly in a Windows 7 guest, probably because it uses a different virtualized network card (Intel PRO/1000 MT Desktop).

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