Archive

Posts Tagged ‘qualcomm’

Qualcomm Snapdragon 845 Octa-core Processor To Feature ARM Cortex A75 Cores (Reports)

May 22nd, 2017 6 comments

According to reports from China, Qualcomm’s next application processor (or rather mobile platform) will be Snapdragon 845, and if accurate, the comparison table below between the Snapdragon processor and Hisilicon Kirin 970 SoC shows the former will be powered by some customized (魔改) version of yet-to-be announced ARM Cortex 75 cores.

Snapdragon 845 octa-core processor will be manufactured using Samsung 10nm LPE processor, come with four custom Cortex A75 cores, four Cortex A53 cores, an Adreno 630 GPU, and an LTE X20 modem supporting LTE Cat 18 for up to 1.2 Gbps download speed. Other features like 802.11ad (High bandwidth, short range WiFi), UFS 2.1, and LPDDR4X were already found on earlier model.

I’ve been unable to find further details about ARM Cortex A75 right now, and we have to wait until ARM Techcon 2017 before getting more details. Mobile phones powered by Snapdragon 845 are supposed to start shipping in Q1 2018.

Via Wccftech

Qualcomm Introduces Snapdragon 630 and 660 “Mobile Platforms” for Mid-Range Smartphones & Tablets

May 9th, 2017 2 comments

Qualcomm has announced two new Snapdragon SoCs Mobile Platforms, namely Snapdragon 630 and 660, with the aim of introducing “high-end features” to mid-range devices. Both chips come with eight cores, an Adreno GPU, and are manufactured with 14nm FinFET technology.

Qualcomm Snapdragon 630

Key features:

  • CPU – 8x ARM Cortex A53 clocked at up to 2.2 GHz (low power cluster up to 1.8 GHz)
  • GPU – Adreno 508 with support for OpenGL ES 3.2, OpenCL 2.0 full,Vulkan, DX12
  • DSP – Hexagon 642 DSP
  • Memory I/F –  LPDDR4, dual channel up to 1333MHz, 8GB RAM
  • Storage I/F – eMMC and UFS flash
  • Display – Up to 1920×1200 resolution; DisplayPort and USB type-C support
  • Video – Up to 4K @ 30 fps playback and capture; H.264, H.265 and VP9 codecs
  • Audio – Qualcomm Aqstic audio codec and speaker amplifier; Qualcomm aptX audio playback
  • Camera – Up to 24MP single camera, up to 13MP dual camera; Qualcomm Spectra 160 ISP
  • Modem – Snapdragon X12 LTE modem: Cat 12 for downlink (600 Mbps max); Cat 13 for uplink (150 Mbps max)
  • Wireless Connectivity – Dual band 802.11ac 1×1 WiFi, Bluetooth 5
  • Location – GPS, Glanass, BeiDou, Galileo, QZSS and SBAS
  • Security – Qualcomm Mobile Security: camera security,  app protect, Qualcomm processor security
  • Charging – Quick Charge 4 technology

Qualcomm Snapdragon 660

 

  • CPU – 8x Kryo 260 cores clocked at up to 2.2 GHz (low power cluster up to 1.8 GHz)
  • GPU – Adreno 512 with support for OpenGL ES 3.2, OpenCL 2.0 full,Vulkan, DX12
  • DSP – Hexagon 680 DSP with Hexagon Vector eXtensions (HVX)
  • Memory I/F –  LPDDR4, dual channel up to 1866MHz, 8GB RAM
  • Storage I/F – eMMC and UFS flash
  • Display – Up to 2560×1600 resolution; DisplayPort and USB type-C support
  • Video – Up to 4K @ 30 fps playback and capture; H.264, H.265 and VP9 codecs
  • Audio – Qualcomm Aqstic audio codec and speaker amplifier; Qualcomm aptX audio playback
  • Camera – Up to 24MP single camera, up to 16MP dual camera; Qualcomm Spectra 160 ISP
  • Modem – Snapdragon X12 LTE modem: Cat 12 for downlink (600 Mbps max); Cat 13 for uplink (150 Mbps max)
  • Wireless Connectivity – Dual band 802.11ac 2×2 WiFi, Bluetooth 5
  • Location – GPS, Glanass, BeiDou, Galileo, QZSS and SBAS
  • Security – Qualcomm Mobile Security: camera security,  app protect, Qualcomm processor security, hardware token
  • Charging – Quick Charge 4 technology

Snapdragon 660 is an upgrade to 653 with about 20 percent improvement in CPU performance, and 30 percent in GPU performance. Snapdragon 630 CPU & GPU are respectively about 10% and 30% faster compared to the ones in Snapdragon 626.

Products based on Snapdragon 660 SoC should hit the shelves in Q2, while Snapdragon 630 mobile devices will start selling in Q3. You’ll find more details on Snapdragon 630 and 660 product pages.

Intrinsyc Introduces Open-Q 2100 SoM and Devkit Powered by Qualcomm Snapdragon Wear 2100 SoC for Wearables

April 27th, 2017 3 comments

Qualcomm unveiled Snapdragon Wear 2100 SoC for wearables early last year, and since then a few smartwatches powered by the processor – such as LG Watch Style and Watch Sport – have been launched, and Intrinsyc has now unveiled one of the first module based on the processor with Open-Q 2100 system-on-module, and a corresponding Nano-ITX baseboard.

Open-Q 2100 SoM specifications:

  • SoC – Qualcomm Snapdragon Wear 2100 (APQ8009W) quad core ARM Cortex A7 processor @ up to 1.094 GHz with Adreno 304 GPU
  • System Memory – 512 MB LPDDR3
  • Storage – 4GB eMMC flash
  • Connectivity – 802.11 b/g/n WiFi (WCN2320), Bluetooth 4.1 LE, Gen 8C GNSS (GPS/GLONASS) with on-board u.FL connector (WGR7640)
  • Audio – Integrated Codec/PMIC (PM8916-1) with optional support for Fluence HD, Snapdragon Voice Activation, and Snapdragon Voice+
  • 2x 100-pin board-to-board connectors with USB 2.0, I2S, GPIO, MIPI DSI up to 720p @ 60 Hz, 2-lane MIPI CSI, SDC2/microSD signals
  • Power Supply – 3.6 to 4.2V input
  • Dimensions – 31.5 x 15 mm
  • Temperature Range – -10 to +70 °C

The module runs Android 7 Nougat by default, but it can also support Android Wear.

The company also provides Open-Q 2100 SoM development board to evaluate the platform, and get started as soon as possible while you wait for your custom baseboard. The development includes the following key features:

  • Connectors for Open-Q 210 system-on-module
  • Storage – micro SD slot
  • Display – MIPI DSI connector with optional smartphone display, HDMI output
  • Camera – MIPI CSI connector for optional 720p capable camera
  • Connectivity – Ethernet port (via LAN9514); wireless connectivity (WiFi, BLE, GPS) on module
  • USB – 4x USB 2.0 host ports
  • Expansion Headers – SPI, I2S, GPIO, etc…
  • Debugging – micro USB port for debug UART
  • Power Supply – 12V/3A via DC jack, or 6-pin battery connector
  • Dimensions – Nano-ITX form factor (120×120 mm)

The module is expected to be used in connected wearables & trackers, tethered smartwatches, as well as ultra-compact embedded designs.

Open-Q 2100 SOM and Development Kit can be pre-ordered for respectively $75 and $595, with “early adopter units available to approved customers by May 31”. More information can be found on Intrynsic Open-Q2100 SoM and Devkit pages.

Via LinuxGizmos

Qualcomm 205 SoC is Designed for Entry-level 4G LTE Feature Phones Running Linux

March 20th, 2017 9 comments

Qualcomm has just introduced Qualcomm 205 “Mobile Platform” designed to bring 4G LTE connectivity and services to entry-level feature phones to emerging regions, such as India, Latin America, and Southeast Asia. The SoC features a dual core ARM CPU, an Adreno 304 GPU, and an LTE Cat 4 modem.

Qualcomm 205 SoC specifications

  • CPU – Dual Core ARM Cortex A7 processor at 1.1 GHz
  • GPU – Qualcomm Adreno 304 GPU supporting OpenGL ES 3.0
  • Memory I/F – LPDDR2 & LPDDR3 up to 384 MHz
  • Storage I/F –  eMMC 4.5 flash
  • Display – MIPI DSI up to 480p60
  • Cellular Connectivity
    • X5 LTE modem supporting LTE Cat 4 with up to 150 Mbps download, 50 Mbps upload;
    • Dual SIM card
    • 2G, 3G and 4G support
    • VoLTE support
  • Connectivity – Support for 802.11 b/g/n & VoWIFI, Bluetooth 4.1, ANT+, FM radio,  GPS/GLONASS/Beidou
  • Camera – Dual 3MP camera support (rear + front) up to 480p60
  • Video Codecs –  H.264 (AVC),  MP4, VP8 decoding up to 720p
  • Security –  Qualcomm SecureMSM hardware and software;  Qualcomm Snapdragon StudioAccess content protection
  • Process – 28nm

The processor is pin-to-pin compatible with Qualcomm Snapdragon 210/212, and Qualcomm provides support for a Linux based OS.

Qualcomm 205 SoC is already in mass production, and retail devices are expected in Q2 2017. You’ll find a few more details on the product page.

Emdoor EM-QL8170 is One of the First LTE Tablets Designed Thanks to Allwinner & Qualcomm Partnership

February 6th, 2017 10 comments

Allwinner and Qualcomm announced a partnership last year to help Chinese manufacturers design entry-level LTE tablets based on Qualcomm Snapdragon processors, and Allwinner collaborated with Emdoor one several designs including EM-QL8170 LTE tablet with a Snapdragon 210 processor and a 6.98″ display.

Emdoor EM-QL8170 specifications:

  • SoC – Qualcomm Snapdragon 210 (MSM8909) quad core Cortex A7 processor up to 1.3 GHz with Adreno 304 GPU @ 400 MHz
  • System Memory – 1 or 2 GB DDR3L
  • Storage – 8 or 16 GB flash + micro SD slot
  • Display – 6.98″ IPS touchscreen display with 1280×720 resolution
  • Connectivity – 802.11 b/g/n WiFi, Bluetooth 4.1 LE, and GPS
  • Cellular Connectivity – LTE Cat 4 with 2x micro SIM card slots
  • Camera – 2.0MP front-facing camera, 8.0MP rear camera
  • Audio – 1x microphone, 1x 3.5mm audio jack, likely some speaker somewhere…
  • USB – 1x micro USB port
  • Battery – 2850 mAh battery
  • Dimensions – 189.7 x 97.7 x 7.8 mm
  • Weight – 248 grams

The phone runs Android 5.1 and will cost a little over $70 (FOB), which could translate to $120 to $140 on sites like Aliexpress. Emdoor also has various other Qualcomm/Allwinner design all with Snapdragon processor, including a rugged smartphone as you’ll find out in Charbax’ video below.

Emdoor sells about 9 millions tablets (full designs and PCB) per year, mostly through partners, as they work with over 100 companies around the world, and around 50 local partners in mainland China to sell their devices, so you may end up buying an Emdoor tablet  under another brand name. You’ll find a few more details on Emdoor EM-QL8170 product page.

Qualcomm’s Alleged “No License, No Chips” Policy Gets it into Trouble with the FTC

January 18th, 2017 6 comments

Qualcomm is the leader in baseband processors used for cellular communications in smartphones and other products, and one way the company has become a leader is by leveraging its patents, by either forcing customer to first “purchase a license to standard-essential patents, including elevated royalties that the customer must pay when using a competitor’s processor”,  “refusing to license its cellular standard-essential patents to competitors”, or “entering exclusivity dealing arrangements” with companies such as Apple. At least that’s according to a complaint brought by the Federal Trade Commission (FTC) in the US that accuses Qualcomm of maintaining a monopoly and using unfair methods of competition, violating the company’s commitment to license on a FRAND (fair, reasonable and non-discriminatory) basis .

The license requirements may explain why smaller companies have a hard time making Qualcomm based products, although this may have  improved with the partnership with Allwinner, and the launch of Qualcomm Snapdragon 410E & 610E SoCs that can be purchased easily from distributors. Bigger companies not wanting to work with smaller ones is actually pretty common, but it’s usually because they want to focus their resources, or the salesman is not interested because his commission would not be large enough.  The alleged anti-competition claims and high royalties may also explain why you still have to pay around $40 to $50 for an LTE USB stick.

However, note that the decision to launch a complaint from the FTC was not unanimous, as while two FTC commissioners voted for it, one voted against, and submitted a written statement explaining that it was “an enforcement action based on a flawed legal theory (including a standalone Section 5 count) that lacks economic and evidentiary support, that was brought on the eve of a new presidential administration, and that, by its mere issuance, will undermine U.S. intellectual property rights in Asia and worldwide”. Qualcomm also issued their own response as one would expect, where they express their belief that “the complaint is based on a flawed legal theory, a lack of economic support and significant misconceptions about the mobile technology industry”. We’ll have to find out how this turns out.

Thanks to Jon for the tip, via Arstechnica

Categories: Qualcomm Snapdragon Tags: qualcomm

Qualcomm Officially Unveils Snapdragon 835 Octa-core Processor for Smartphones, Mobile PCs, Virtual Reality…

January 4th, 2017 1 comment

Qualcomm first mentioned Snapdragon 835 processor in November, but at the time, they only disclosed it would be manufactured using 10nm process technology in partnership with Samsung, and claimed the obvious “faster and lower power consumption” compared the previous generation. The company has now provided much more info ahead of CES 2017.

snapdragon-835-block-diagramSnapdragon 835 key features and specifications:

  • Processor – 8x Kryo 280 cores used into two clusters:
    • performance cluster with 4x cores @ up to 2.45 GHz with 2MB L2 cache
    • efficient cluster with 4x cores @ up to 1.9 GHz with 1MB L2 cache
  • GPU – Adreno 540 GPU with support for OpenGL ES 3.2, OpenCL 2.0 full, Vulkan, DX12
  • DSP – Hexagon 682 DSP with Hexagon Vector eXtensions and Qualcomm All-Ways Aware technology
  • Memory I/F – dual channel LPDDR4x
  • Storage I/F – UFS2.1 Gear3 2L, SD 3.0 (UHS-I)
  • Display – UltraHD Premium-ready , 4K Ultra HD 60 Hz, 10-bit color depth, DisplayPort, HDMI, and USB Type-C support
  • Video – Up to 4K @ 30 fps capture, up to 4K @ 60 fps playback, H.264, H.265 and VP9 codecs.
  • Audio – Qualcomm Aqstic audio codec and speaker amplifier; Qualcomm aptX audio playback support: aptX Classic, aptX HD
  • Camera – Spectra 180 ISP; dual 14-bit ISPs up to 16MP dual camera, 32MP single camera
  • Connectivity – 802.11ad multi-gigabit, integrated 802.11ac 2×2 WiFi with MU-MIMO (tri-band: 2.4, 5.0 and 60 GHz); Bluetooth 5.0
  • Modem – X16 LTE modem; downlink up to 1 Gbps, uplink up to 150 Mbps
  • Location – GPS, Glonass, BeiDou, Galileo, and QZSS systems content protection
  • Security – Qualcomm SecureMSM technology, Qualcomm Haven security suite, Qualcomm Snapdragon StudioAccess content protection
  • Charging – Quick Charge 4 technology, Quacomm WiPower technology
  • Manufacturing – 10nm FinFET (Samsung)

Snapdragon 835 will use about 25 percent less power than Snapdragon 820, while being 35 percent smaller, and delivering 25 percent faster 3D graphic rendering. The processor is expected to be found in premium consumer devices such as smartphones, VR/AR head-mounted displays, IP cameras, tablets, mobile PCs, and more. The first devices announced with Snapdragon 835 are Osterhout Design Group (ODG) R-8  augmented/virtual reality smartglasses and ODG R-9 smartglasses and devkit for wide field of view (WFOV) experiences

You’ll find more details on Snapdragon 835 product page.

Qualcomm Starts Sampling of Qualcomm Centriq 2400 ARM Server SoC with Up to 48 ARMv8 Cores

December 8th, 2016 4 comments

Qualcomm has announced commercial sampling of Qualcomm Centriq 2400 series server SoC built with 10nm FinFET process technology and featuring up to 48 Qualcomm Falkor custom ARMv8 CPU cores “highly optimized to both high performance and power efficiency, and designed to tackle the most common datacenter workloads”.

qualcomm-centriq-2400-series-soc

Qualcomm Datacenter Technologies demonstrated the new processor in a Live demo showing Apache, Spark, Java, and Hadoop on Linux running on a SBSA compliant server powered by Qualcomm Centriq 2400 processor, but the company did not provide any further technical details or preliminary benchmark results for the solution.

The Qualcomm Centriq 2400 processor series is now sampling to select customers and is expected to be commercially available in H2 2017. That’s about all we know from the press release. However, Linaro have been working on Qualcomm Technologies QDF2432 based board for several months with support for Debian 8.x ‘Jessie’ and CentOS 7 operating systems, as well as Hadoop and OpenStack. It’s not 100% clear if this is indeed related to Centriq 2400, albeit the name QDF2432 seems to indicate so, and it would probably have started on some FPGA board to simulate Centriq 2400 (32-core?) processor, unless they had engineering samples for nearly a year. There’s also a basically empty page on Centos.org for “Qualcomm QDF2432 Server Dev Platform”. It’s close to impossible to find much details since those things are developed under NDAs.