ASUS Zenbook UX301LA-DH71T i7-4558U-2.8GHz-13.3& Touchscreen Ultrabook available for just £1,409.00 from Tip Top Electronics UK with fast shipping.The Zenbook is powered by a 2.8GHz Intel Core i7-4558U processor and 8GB of low-power DDR3L memory.
ASUS Zenbook UX301LA-DH71T i7-4558U-2.8GHz-13.3& Touchscreen Ultrabook available for just £1,409.00 from Tip Top Electronics UK with fast shipping.The Zenbook is powered by a 2.8GHz Intel Core i7-4558U processor and 8GB of low-power DDR3L memory.
Professional recruitment entrepreneur Scott Robarge helps fast-growing technology companies find the skilled professionals they need for their continued success. When locating desired talent, Scott Robarge uses mobile-based technology and social media platforms such as Twitter.
Go Solar and Drive Electric. Save money and increase the value of your home. Going solar is easy. Sign up for a free quote and find out why: It Pays to be Positive!
www.positiveenergysolar.com
In this workshop we will discuss the use of technology in the work of the humanities, also known as Digital Humanities (DH). We will discuss how faculty can us DH to archive historical documents, as well as how DH might be used to motivate students with different learning styles. For technologists, you will learn the tools many people are using to implement DH projects, and how you can help faculty think about historical data in the context of a DH project.
MYS-6ULX Single Board Computer for Industry 4.0 and IoT ApplicationsLinda Zhang
The document introduced MYIR's i.MX 6UL / 6ULL based ARM Cortex-A7 Single Board Computer for Industry 4.0 and IoT applications which is ready to run Linux with high performance and ulta low cost.
A History of laptops describes the efforts in the 1970s and 1980s to build small, portable personal computers that combine the components, inputs, outputs and capabilities of a desktop computer in a small chassis.
MYD-Y6ULX Development Board for i.MX 6UL/6ULL ARM Cortex-A7 ProcessorsLinda Zhang
The MYD-Y6ULX development board is a complete evaluation platform for NXP’s i.MX 6UltraLite / 6ULL processor family, which can operate at 528 MHz and features the most efficient ARM Cortex-A7 core, providing various memory interfaces and enhancing the flexibility and convenience of the board to connect peripheral devices. The board is ready to run Linux and supports industrial operating temperature range from -40 to +85 Celsius. employs the MYC-Y6ULX CPU Module as the controller board by populating the CPU Module on its base board through 1.0mm pitch 140-pin stamp hole interface. The MYC-Y6ULX CPU Module is mounted with a shield cover and integrated with core components including i.MX 6UltraLite / 6ULL processor, 256MB DDR3, 256MB Nand Flash or optional 4GB eMMC and Ethernet PHY. The base board has extended rich peripherals through connectors and headers like Serial ports, USB, Ethernet, CAN, Micro SD card, WiFi module, LCD/Touch screen, Camera, Audio as well as a Mini PCIe interface for optional USB based 4G LTE module. It is a versatile platform and solid reference design delivered with necessary cable accessories and detailed documentations ideal for prototype and evaluation based on i.MX 6UL/6ULL solutions.
A talk I gave about how I managed to get a modern Gentoo Linux installed in a 486 PC in 2018.
Blog Post: http://yeokhengmeng.com/2018/01/make-the-486-great-again/
Instructions: https://github.com/yeokm1/gentoo-on-486
Thiết kế chắc chắn, đẳng cấp
Hiệu năng vượt trội, hoạt động êm và mạnh mẽ
Số lượng cổng kết nối nhiều, đa dạng
Trang bị tính năng bảo mật hiện đại
Dễ nâng cấp
Trang bị chuẩn kết nối wifi 6
Phù hợp với giới thiết kế đồ họa chuyên nghiệp, nhất là người làm thiết kế kiến trúc cần di chuyển nhiều
Nguồn: https://laptops.vn/san-pham/thinkpad-p1-gen-2/
IEI is een van de grootste leveranciers van producten voor industriële computersystemen. IEI levert honderden verschillende boards, systemen en onderdelen voor uiteenlopende applicaties in de industriële automatisering, defensie, medisch, infotainment en mobiel gebruik. Vooruitstrevende oplossingen bezorgen u als klant een kortere ontwerpcyclus zodat u de voorsprong op de concurrent kunt behouden en zelfs vergroten.
IBM System x3850 X5 Technical PresentationCliff Kinard
Detailed technical overview of a IBM's System x3850 x5 Intel processor-based server.
The x3850 X5 server allows freedom of choice with extremely flexible configurations plus memory expansion capabilities. A modular building block design lets you customize your system for current needs while providing the ability to react to changing workloads. Expand your 4-socket, 64-DIMM x3850 X5 to 4 sockets and 96 DIMMs or up to 8 sockets and 128 DIMMs. Reallocate resources as your environment changes. The x3850 X5 meets your needs today, while providing an easy, cost-effective upgrade path to change your environment when you’re ready.
MYC-Y6ULX CPU Module - NXP i.MX 6UL/6ULL System-on-ModuleLinda Zhang
This overview document gives a brief introduction of MYIR's MYC-Y6ULX CPU Module which is powered by NXP i.MX 6UltraLite / 6ULL processor based on the ARM Cortex-A7 architecture. It is ready to run Linux and delivers high performance with ultra-efficient power that targets Industry Control, Communications, HMI, Smart Healthcare and Internet of Things (IoT) applications. It carries out as many as peripheral signals and IOs through 1.0mm pitch 140-pin stamp hole expansion interface to allow customer’s extension for their next embedded design. The module can support industrial operating temperature range from -40 to +85 Celsius.
Neuro-symbolic is not enough, we need neuro-*semantic*Frank van Harmelen
Neuro-symbolic (NeSy) AI is on the rise. However, simply machine learning on just any symbolic structure is not sufficient to really harvest the gains of NeSy. These will only be gained when the symbolic structures have an actual semantics. I give an operational definition of semantics as “predictable inference”.
All of this illustrated with link prediction over knowledge graphs, but the argument is general.
GraphRAG is All You need? LLM & Knowledge GraphGuy Korland
Guy Korland, CEO and Co-founder of FalkorDB, will review two articles on the integration of language models with knowledge graphs.
1. Unifying Large Language Models and Knowledge Graphs: A Roadmap.
https://arxiv.org/abs/2306.08302
2. Microsoft Research's GraphRAG paper and a review paper on various uses of knowledge graphs:
https://www.microsoft.com/en-us/research/blog/graphrag-unlocking-llm-discovery-on-narrative-private-data/
Elevating Tactical DDD Patterns Through Object CalisthenicsDorra BARTAGUIZ
After immersing yourself in the blue book and its red counterpart, attending DDD-focused conferences, and applying tactical patterns, you're left with a crucial question: How do I ensure my design is effective? Tactical patterns within Domain-Driven Design (DDD) serve as guiding principles for creating clear and manageable domain models. However, achieving success with these patterns requires additional guidance. Interestingly, we've observed that a set of constraints initially designed for training purposes remarkably aligns with effective pattern implementation, offering a more ‘mechanical’ approach. Let's explore together how Object Calisthenics can elevate the design of your tactical DDD patterns, offering concrete help for those venturing into DDD for the first time!
Software Delivery At the Speed of AI: Inflectra Invests In AI-Powered QualityInflectra
In this insightful webinar, Inflectra explores how artificial intelligence (AI) is transforming software development and testing. Discover how AI-powered tools are revolutionizing every stage of the software development lifecycle (SDLC), from design and prototyping to testing, deployment, and monitoring.
Learn about:
• The Future of Testing: How AI is shifting testing towards verification, analysis, and higher-level skills, while reducing repetitive tasks.
• Test Automation: How AI-powered test case generation, optimization, and self-healing tests are making testing more efficient and effective.
• Visual Testing: Explore the emerging capabilities of AI in visual testing and how it's set to revolutionize UI verification.
• Inflectra's AI Solutions: See demonstrations of Inflectra's cutting-edge AI tools like the ChatGPT plugin and Azure Open AI platform, designed to streamline your testing process.
Whether you're a developer, tester, or QA professional, this webinar will give you valuable insights into how AI is shaping the future of software delivery.
Generating a custom Ruby SDK for your web service or Rails API using Smithyg2nightmarescribd
Have you ever wanted a Ruby client API to communicate with your web service? Smithy is a protocol-agnostic language for defining services and SDKs. Smithy Ruby is an implementation of Smithy that generates a Ruby SDK using a Smithy model. In this talk, we will explore Smithy and Smithy Ruby to learn how to generate custom feature-rich SDKs that can communicate with any web service, such as a Rails JSON API.
DevOps and Testing slides at DASA ConnectKari Kakkonen
My and Rik Marselis slides at 30.5.2024 DASA Connect conference. We discuss about what is testing, then what is agile testing and finally what is Testing in DevOps. Finally we had lovely workshop with the participants trying to find out different ways to think about quality and testing in different parts of the DevOps infinity loop.
Smart TV Buyer Insights Survey 2024 by 91mobiles.pdf91mobiles
91mobiles recently conducted a Smart TV Buyer Insights Survey in which we asked over 3,000 respondents about the TV they own, aspects they look at on a new TV, and their TV buying preferences.
UiPath Test Automation using UiPath Test Suite series, part 3DianaGray10
Welcome to UiPath Test Automation using UiPath Test Suite series part 3. In this session, we will cover desktop automation along with UI automation.
Topics covered:
UI automation Introduction,
UI automation Sample
Desktop automation flow
Pradeep Chinnala, Senior Consultant Automation Developer @WonderBotz and UiPath MVP
Deepak Rai, Automation Practice Lead, Boundaryless Group and UiPath MVP
Encryption in Microsoft 365 - ExpertsLive Netherlands 2024Albert Hoitingh
In this session I delve into the encryption technology used in Microsoft 365 and Microsoft Purview. Including the concepts of Customer Key and Double Key Encryption.
The Art of the Pitch: WordPress Relationships and SalesLaura Byrne
Clients don’t know what they don’t know. What web solutions are right for them? How does WordPress come into the picture? How do you make sure you understand scope and timeline? What do you do if sometime changes?
All these questions and more will be explored as we talk about matching clients’ needs with what your agency offers without pulling teeth or pulling your hair out. Practical tips, and strategies for successful relationship building that leads to closing the deal.
2. Apple Inc. is an American multinational corporation
headquartered in Cupertino, California, that designs,
develops, and sells consumer electronics, computer software,
online services, and personal computers.
Its best-known hardware products are the Mac line of computers,
the iPod media player, the iPhone smartphone, and the iPad
tablet computer.
Its online services include iCloud, the iTunes Store, and the App
Store. Apple's consumer software includes
the OS X and iOS operating systems, the iTunes media browser,
the Safari web browser, and the iLife and iWork creativity and
productivity suites.
3.
4. 1976 • Apple I
Essentials
Family: Pre-Macintosh
Codename: ?
Introduced: April 1976
Terminated: March 1977
Processor
CPU: MOS Technology 6502
CPU Speed: 1 MHz
FPU: none
Bus Speed: 1 MHz
Register Width: 8-bit
Data Bus Width: 8-bit
Address Bus Width: 16-bit
Onboard RAM: 8 kB
Maximum RAM: 65 kB
Video
VRAM: 1 kB
Max Resolution: 60.05 Hz,
40x24 char
Miscellaneous
Power: 58 Watts
Based on the MOStek 6502
chip, the Apple I included only
the circuit board. A tape-
interface was sold separately,
but you had to build the case.
5. 1983 • Lisa
Essentials
Family: Pre-Macintosh
Codename: Lisa
Gestalt ID: 2
Maximum OS: LisaOS/MacWorks
Introduced: January 1983
Terminated: August 1986
Processor
CPU: Motorola MC68000
CPU Speed: 5 MHze
Bus Speed: 5 MHz
Register Width: 32-bit
Data Bus Width: 16-bit
Address Bus Width: 32-bit
ROM: 16 kB of diagnostic and
bootstrap code present
Video
Monitor: 12" 720 x 364 built-in
(B/W, rectangular pixels)
Storage
Hard Drive: 5 MB external (10 MB
in some configurations of Lisa
2/MacXL)
Floppy Drive: two 871 kB 5.25" (one
400 kB 3.5" in Lisa2)
The first personal computer to
use a GUI (Graphical User
Interface). It contained a Motorola
68000 Processor running at 5
Mhz, 1 MB of RAM, two 5.25"
871k floppy drives, an external 5
MB hard drive, and a built-in 12"
720 x 360 monochrome monitor.
Initial cost: $9,995.
6. 1983 • Apple //e
Essentials
Family: Pre-Macintosh
Codename: Diana
Introduced: January 1983
Terminated: March 1985
Processor
CPU: MOS Technology/SynerTek
6502
CPU Speed: 1 MHz
FPU: none
Bus Speed: 1 MHz
Register Width: 8-bit
Data Bus Width: 8-bit
Address Bus Width: 16-bit
ROM: 16 kB
Onboard RAM: 64 kB
RAM slots: expansion via 1st slot
Maximum RAM: 128 k, with
Extended 80 Columns Card
Expansion Slots: 8 proprietary
Video
Max Resolution: 40/80x24 text, 4-bit
40x48, 6 color 140x192, 4-bit
140x192, 1-bit 240x192, 1-bit
560x192
One of the most successful Apple
computers ever. It used the
65C02 processor, running at 1.02
Mhz, and came with 64K of RAM,
32K ROM, BASIC (an assembly
language interface), and several
other hard-coded options.
7. 1984 • Mac 128k
Essentials
Family: Classic Macs
Codename: Macintosh
Gestalt ID: 1
Minimum OS: 1.0
Maximum OS: System 3.2/Finder
5.3
Introduced: January 1984
Terminated: October 1985
Processor
CPU: Motorola MC68000
CPU Speed: 8 MHz
FPU: none
Bus Speed: 8 MHz
Register Width: 32-bit
Data Bus Width: 16-bit
Address Bus Width: 32-bit
ROM: 64 kB
Onboard RAM: 128 kB
Maximum RAM: 128 kB
Video
Monitor: 9" built-in
VRAM: 1 bit 512x342
Storage
Floppy Drive: 3.5" 400 kB
The first affordable computer to
include a GUI, and using the new
8 MHz Motorola 68000 chip. It
came in a small beige case with a
built-in black and white monitor, a
keyboard, mouse, and a floppy
drive that took 400k 3.5" disks—
the first personal computer to do
so.
8. 1989 • Portable
Essentials
Family: PowerBook
Gestalt ID: 10
Minimum OS: 6.0.4
Maximum OS: 7.5.5
Introduced: September 1989
Terminated: October 1991
Processor
CPU: Motorola MC68000
CPU Speed: 16 MHz
FPU: none
Bus Speed: 16 MHz
Register Width: 32-bit
Data Bus Width: 16-bit
Address Bus Width: 32-bit
ROM: 256 kB
RAM Type: proprietary
Minimum RAM Speed: 100 ns
Onboard RAM: 1 MB
RAM slots: 1
Maximum RAM: 8 MB
Video
Screen: 1-bit active matrix (backlit after
2/91)
Max Resolution: 640x400
Storage
Hard Drive: optional 40 MB
Floppy Drive: 1 or 2 1.4 MB SuperDrive
Apple's first attempt at a more
easily portable Macintosh. It had
a bay for a 3.5" half-height drive,
and could support up to two
Super Drives. Its active matrix
screen (later backlit) made it
incredibly expensive
9. 1993 • Color Classic
Essentials
Family: Classic Macs
Gestalt ID: 49
Minimum OS: 7.0.1
Maximum OS: 7.6.1
Introduced: February 1993
Terminated: May 1994
Processor
CPU: Motorola MC68030
CPU Speed: 16 MHz
FPU: optional 68882
Bus Speed: 16 MHz
Register Width: 32-bit
Data Bus Width: 32-bit
Address Bus Width: 32-bit
ROM: 1 MB ROM
RAM Type: 30 pin SIMM
Minimum RAM Speed: 100 ns
Onboard RAM: 2 MB
RAM slots: 2
Maximum RAM: 10 MB
Level 1 Cache: 256 bytes data, 256
bytes instruction
Video
Monitor: 10" built-in
Max Resolution: 8 bit 512x384
Storage
Hard Drive: 40-160 MB
Floppy Drive: 1.4 MB SuperDrive
Identical to the Classic II,
except for a color screen, a
larger ROM, and a restyled
case. Also released as the
Performa 250.
10. 1997 • Power Mac 9600
Essentials
Family: PowerMac
Codename: Kansas
Gestalt ID: 67
Minimum OS: 7.5.5
Maximum OS: 9.1
Introduced: February 1997
Terminated: Early 1998
Processor
CPU: PowerPC 604e
FPU: integrated
Bus Speed: 50 MHz
Register Width: 32-bit
Data Bus Width: 64-bit
Address Bus Width: 32-bit
ROM: 4 MB
RAM Type: 168 pin DIMM
Minimum RAM Speed: 70 ns
Onboard RAM: 0 MB
RAM slots: 12
Maximum RAM: 1536 MB
Level 1 Cache: 32 kB data, 32 kB
instruction
Level 2 Cache: 512 kB DIMM
Expansion Slots: 6 PCI
Storage
Hard Drive: 4.0 GB 7200 RPM
Floppy Drive: 1.4 MB SuperDrive
Optical Drive: 12x CD-ROM
The 9600 was built to make its
insides more easily accessible. It
ran on 233, 200, or dual 200 Mhz
604e's. Initial cost: $4,700 for the
dual 200Mhz configuration,
$4,200 for the single 233Mhz, and
$3,700 for the single 200 Mhz.
11. 1997 • Power Mac 9600
Essentials
Family: PowerBook G3/G4
Codename: Main Street, Wall Street
Gestalt ID: 312
Minimum OS: 8.1
Maximum OS: 10.2.8
Introduced: May 1998
Terminated: August 1998
Processor
CPU: PowerPC 750 "G3"
CPU Speed: 233/250/292 MHz
FPU: integrated
Bus Speed: 83 MHz
Register Width: 32-bit
ROM: 4 MB
RAM Type: SO-DIMM
Level 1 Cache: 32 kB data, 32 kB instruction
Level 2 Cache: 1 MB backside, 1:2
Video
Screen: 12.1/13.3/14.1" active matrix TFT
Max Resolution: 1024x768
Video Out: VGA, s-video
Storage
Hard Drive: 2 GB
Floppy Drive: removable 1.4 MB SuperDrive
Zip Drive: optional
Optical Drive: 24x CD-ROM or optional DVD-
The G3 Series was available with
a variety of built-to-order options
including a 233, 250, or 292 Mhz
PPC750 processor and either a
12" passive-matrix screen, a 13.3"
TFT Active Matrix screen, or an
incredible 14.1" TFT Active Matrix
Screen. All models included two
RAM slots which used industry
standard RAM modules
12. 1999 • G4
Power Macintosh
Essentials
Family: PowerMac G3/G4/G5
Gestalt ID: 406
Minimum OS: 8.6
Maximum OS: 10.4.11
Introduced: September 1999
Terminated: December 1999
Processor
CPU: PowerPC 7400 "G4"
CPU Speed: 350/400 MHz
FPU: integrated
Bus Speed: 100 MHz
Register Width: 32-bit
Data Bus Width: 64-bit
Address Bus Width: 32-bit
ROM: 1 MB ROM + 3 MB toolbox ROM
loaded into RAM
RAM Type: PC100
Level 1 Cache: 32 kB data, 32 kB
instruction
Level 2 Cache: 1 MB backside, 1:2
Storage
Hard Drive: 10 GB (up to 3 36 GB
available BTO)
ATA Bus: ATA-33
Zip Drive: optional
Optical Drive: 32x CD-ROM, DVD/DVD-
RAM available
Based on the Unified Motherboard
Architecture, the G4 AGP used the
MPC 7400 chip, AGP-based graphics,
AirPort compatibility, a faster memory
bus, DVD-ROM or RAM standard, an
internal FireWire port, 2 separate USB
buses for a combined 24 Mbs, a 2X
(133 Mhz) AGP slot, and up to 1.5 GB
of RAM.
13. 2000 • G4 Cube
Essentials
Family: PowerMac G3/G4/G5
Gestalt ID: 406
Minimum OS: 8.6
Maximum OS: 10.4.11
Introduced: September 1999
Terminated: December 1999
Processor
CPU: PowerPC 7400 "G4"
CPU Speed: 450/500 MHz
FPU: integrated
Bus Speed: 100 MHz
Register Width: 32-bit
Data Bus Width: 64-bit
Address Bus Width: 32-bit
ROM: 1 MB ROM + 3 MB toolbox ROM
loaded into RAM
RAM Type: PC100
RAM slots: 3
Maximum RAM: 1.5 GB
Level 1 Cache: 32 kB data, 32 kB
instruction
Level 2 Cache: 1 MB backside, 1:2
Storage
Storage
Hard Drive: 20/30/60 GB
ATA Bus: ATA-66
Optical Drive: DVD-ROM or CD-RW
Housed in an 8x8x8 cube, the G4
Cube combined elegance and power,
trading expandability for its diminutive
size. It contained three RAM slots, an
AirPort slot, two USB and FireWire
ports, a 450Mhz G4 processor, a 20 GB
hard drive, a 56k modem, 64 MB of
RAM, Apple's Pro Mouse, and came
with an external USB amplifier and a
set of Harman Kardon speakers.
14. 2002 • Flat-panel iMac
Processor
CPU: PowerPC 7450 "G4"
CPU Speed: 700/800 MHz
FPU: integrated
Bus Speed: 100 MHz
Register Width: 32-bit
Data Bus Width: 64-bit
Address Bus Width: 32-bit
ROM: 1 MB ROM + 3 MB toolbox ROM
loaded into RAM
RAM Type: PC133 SDRAM
Minimum RAM Speed: 133 MHz
Onboard RAM: 0 MB
RAM slots: 2
Maximum RAM: 1 GB
Level 1 Cache: 32 kB data, 32 kB
instruction
Level 2 Cache: 256 kB on-processor
Video
Screen: 15" LCD
GPU: NVidia GeForce2 MX
VRAM: 32 MB
Max Resolution: 1024x768
Video Out: mini VGA, mirror only
Storage
Hard Drive: 20/40/60 GB
ATA Bus: ATA-66
Optical Drive: See Notes
Using a 15- or 17-inch LCD
screen, G4 processor, and the
CD-RW/DVD-R Super Drive,
the iMac's Flat Panel screen
easily rotates and changes
angles. The 10.6" semi-
spherical base houses the rest
of the computer.
15. 2004 • iMac G5
Housed in a completely new
enclosure reminiscent of
Apple's Cinema Display line,
the iMac G5 was a marvel of
miniaturization. The case was
only two inches thick, yet
housed a machine
considerably faster and more
advanced than its G4-based
predecessor.
Processor
CPU: PowerPC 970 "G5"
CPU Speed: 1.6/1.8 GHz
FPU: integrated
Bus Speed: 533/600 MHz
ROM: 1 MB ROM + 3 MB toolbox ROM
loaded into RAM
RAM Type: PC3200 DDR
Minimum RAM Speed: 400 MHz
Onboard RAM: 0 MB
RAM slots: 2
Maximum RAM: 2 GB
Level 1 Cache: 32 kB data, 64 kB
instruction
Level 2 Cache: 512 kB on-processor
Video
Screen: 17/20" LCD
GPU: NVIDIA GeForce FX 5200 Ultra (8X
AGP)
VRAM: 64 MB
Max Resolution: 1440x900/1680x1050
Video Out: mini-VGA (mirror only)
Storage
Hard Drive: 80/160 GB 7200 RPM
ATA Bus: Serial-ATA
Optical Drive: 24x/24x/16x/8x CD-RW/DVD-
ROM or 24x/16x/8x/8x/4x CD-RW/DVD-RW
16. 2006 • MacBook
The MacBook replaced the
existing 12- and 14-inch
iBooks and 12-inch MacBook
Pro: a dual core Intel Core
Duo processor, a faster 667
MHz bus speed, a faster and
larger Serial-ATA hard drive,
an integrated iSight camera, a
MagSafe power adaptor, and
a bundled remote control with
Apple's Front Row Software.
Processor
CPU: Intel Core Duo (T2xxx)
CPU Speed: 1.83/2.0 GHz
CPU Cores: 2
FPU: integrated
ROM: EFI
RAM Type: PC2-5300 SO-DIMM
Level 1 Cache: 32 kB data, 32 kB
instruction
Level 2 Cache: 2 MB on-processor
Video
Screen: 13.3" active matrix TFT
GPU: Intel GMA950
VRAM: 64 MB shared (see notes)
Max Resolution: 1280x800
Video Out: mini-DVI
Camera: iSight
Storage
Hard Drive: 60/80 GB 5400 RPM
(w/SMS) (100/120 GB 5400 rpm BTO)
ATA Bus: Serial-ATA
Optical Drive: 24x/24x/10x/8x/4x/4x
CD-RW/DVD±R
17. 2007 • iPod nano
Introduced in September 2007,
the iPod nano (3rd Generation)
was a radical departure in form
factor from the previous model.
In order to accommodate a
screen large enough to allow
reasonable display of video, it
was shorter and wider than any
previous iPod nano, for which it
garnered the nickname "fat
boy."
Essentials
Family: iPod
Codename: ?
Minimum OS: iPod nano 3G OS 1.0
Maximum OS: iPod nano 3G OS 1.1.3
Introduced: September 2007
Terminated: August 2008
Processor
CPU: Samsung ARM
CPU Speed: ?
FPU: none
Register Width: 32-bit
Data Bus Width: 32-bit
Address Bus Width: 32-bit
ROM: 32 MB
Onboard RAM: 64 MB
Maximum RAM: 64 MB
Video
Screen: 2" backlit LCD
Max Resolution: 16-bit 320x240
Video Out: composite, component (via Dock
Connector)
Storage
Flash Drive: 4/8 GB
18. 2008 • iPhone
.The iPhone was the first
Apple-branded consumer
device to run on OS X. Based
around a touch-based user
interface with a single button,
the iPhone was controlled
using a variety of one- and
two-finger gestured.
Processor
CPU: Samsung S3C6400 (ARM11 core)
CPU Speed: 400 MHz
FPU: integrated
Bus Speed: 100 MHz
Register Width: 32-bit
Data Bus Width: 32-bit
Address Bus Width: 32-bit
Onboard RAM: 128 MB
Maximum RAM: 128 MB
Level 1 Cache: 16 kB data, 16 kB
instruction
Video
Screen: 3.5" multi-touch
GPU: PowerVR MBX-Lite
Max Resolution: 480x320
Video Out: composite, component (via Dock
Connector)
Camera: 2MP
Storage
Flash Drive: 8/16 GB
Networking
Airport Extreme: included
Bluetooth: 2.0+EDR
Cellular:
GSM/EDGE (850, 900, 1800, 1900 MHz)
UMTS/HSDPA (850, 1900, 2100 MHz)
Location: GPS
19. 2009 • Mac Pro
In March 2009, the Mac Pro (Early
2009, Single CPU) introduced Intel's
Nehalem architecture to Apple's
professional desktop line, alongside
the higher-end Mac Pro (Early 2009
Dual CPU). It came in a single,
highly-customizable configuration.
The base configuration included a 4-
core 2.66 GHz Intel Xeon 3500-
series processor, 3 GB of RAM, a
640 GB 7200 RPM hard drive, and
512 MB of VRAM,
Processor
CPU: Intel Xeon 3500 Series ("Bloomfield")
CPU Speed: 2.66 GHz
CPU Cores: 4
Bus Speed: 4.8 GT/s (see notes)
ROM: EFI
RAM Type: PC-8500 DDR3 ECC SDRAM
Minimum RAM Speed: 1066 MHz
Onboard RAM: 0 MB
RAM slots: 4
Maximum RAM: 16 GB
Level 1 Cache: 32 kB data, 32 kB
instruction
Level 2 Cache: 256 kB per-core (1 MB total)
Level 3 Cache: 8 MB on-processor
Expansion Slots: 1 PCI Express 2.0 x16
slot, 2 PCI Express 2.0 x4 slots
Video
GPU: NVIDIA GeForce GT 120 (16-lane
double-wide PCI Express 2.0 slot)
VRAM: 512 MB
Max Resolution: all resolutions supported
Video Out: Mini DisplayPort, DVI (dual link)
Storage
Hard Drive: 640 GB 7200 RPM
ATA Bus: Serial-ATA
Optical Drive: 32x/32x/32x/18x/18x/8x CD-
RW/DVD±RW/DVD±R DL
20. 2010 • iPhone 4
The iPhone 4 replaced the iPhone
3GS, and included the same Apple-
designed A4 processor found in the
iPad. External improvements included
a slimmer, redesigned case, a 5
megapixel camera with LED flash, a
VGA-quality front-facing camera, and
a stunning new 960x640 LED-backlit
display.
Processor
CPU: Apple A4 (ARM Cortex-A8)
CPU Speed: 800 MHz
FPU: integrated
Register Width: 32-bit
Data Bus Width: 64-bit
Address Bus Width: 32-bit
Onboard RAM: 512 MB
Maximum RAM: 512 MB
Level 1 Cache: 32 kB data, 32 kB
instruction
Level 2 Cache: 512 kB on-processor
Video
Screen: 3.5" multi-touch
GPU: PowerVR SGX 535 (via A4
chip)
Max Resolution: 960x640 ("Retina")
Video Out: composite, component (via
Dock Connector)
Camera: 5 MP back (w/LED flash),
VGA front
Storage
Flash Drive: 16/32 GB
21. 2010 • iPad
Based around a 9.7-inch LED-
backlit multi-touch display, the iPad,
finally, was more or less what the
Rumor-mill had predicted: a giant
iPhone. It used a new version of the
same iPhone OS that the then-
current iPhone 3GS and iPod touch
(Late 2009) used, and could run
nearly all existing third-party iPhone
applications.
Essentials
Family: iOS
Minimum OS: iPhone OS 3.2
Maximum OS: iOS 5.1.1
Announced: January 2010
Introduced: March 2010
Terminated: March 2011
Processor
CPU: Apple A4 (ARM Cortex-A8)
CPU Speed: 1 GHz
FPU: integrated
Bus Speed: ?
Register Width: 32-bit
Data Bus Width: 64-bit
Address Bus Width: 32-bit
Onboard RAM: 256 MB
Maximum RAM: 256 MB
Level 1 Cache: 32 kB data, 32 kB
instruction
Level 2 Cache: 512 kB on-processor
Video
Screen: 9.7" LED-backlit multi-touch
GPU: PowerVR SGX 535 (via A4 chip)
Max Resolution: 1024x768
Video Out: composite, component (via Dock
Connector)
Storage
Flash Drive: 16/32/64 GB
22. 2011 • MacBook Air
Introduced in July 2011, the
MacBook Air (13-inch, Mid 2011)
was based on Intel's next-
generation "Sandy Bridge"
architecture, and improved on its
predecessor, the MacBook Air (13-
inch, Late 2010) with faster
processors and graphics, a backlit
keyboard, and the inclusion of
Apple's new Thunderbolt port.
Processor
CPU: Intel Core i5 Mobile
CPU Speed: 1.7 GHz (1.8 GHz Core i7
BTO)
CPU Cores: 2
FPU: integrated
Bus Speed: 5 GT/s (DMI)
Register Width: 64-bit
Data Bus Width: 64-bit
Address Bus Width: 64-bit
ROM: EFI
Onboard RAM: 4 GB
Maximum RAM: 4 GB
Level 1 Cache: 32 kB data, 32 kB
instruction
Level 2 Cache: 256 kB per-core (512 kB
total)
Level 3 Cache: 3 MB on-processor
Expansion Slots: SD card
Video
Screen: 13.3" LED-backlit TFT
GPU: Intel HD Graphics 3000
VRAM: 384 MB shared (see notes)
Max Resolution: 1400x900
Video Out: via Thunderbolt
Camera: FaceTime
Storage
Flash Drive: 128/256 GB (512 GB BTO)
Optical Drive: optional external
23. 2012 • iPad (Retina)
The iPad (Retina) included the
Apple-designed A5X processor,
which improved on the A5 primarily
with the inclusion of a faster, quad-
core graphics chipset. The new
iPad also included twice the RAM
of the iPad 2, an upgraded 5
mega-pixels rear-facing camera,
and support for 4G LTE on the
cellular models (an Apple first).
Dictation support was added (via
iOS 5.1), but the iPhone 4S's "Siri"
feature was not included.
Processor
CPU: Apple A5X (ARM Cortex-A9)
CPU Speed: 1 GHz
CPU Cores: 2
FPU: integrated
Bus Speed: ?
Register Width: 32-bit
Data Bus Width: 64-bit
Address Bus Width: 32-bit
Onboard RAM: 1 GB
Maximum RAM: 1 GB
Level 1 Cache: 32 kB data, 32 kB
instruction
Level 2 Cache: 1 MB on-processor
Video
Screen: 9.7" LED-backlit multi-touch
GPU: quad-core PowerVR
SGX543MP4 (via A5X chip)
Max Resolution: 2048x1536 ("Retina")
Video Out: composite, component (via
Dock Connector)
Camera: Front: VGA, Rear: 5 MP
Storage
Flash Drive: 16/32/64 GB
24. 2013 • iPhone 5s
Height: 4.87 inches (123.8 mm)
Width: 2.31 inches (58.6 mm)
Depth: 0.30 inch (7.6 mm)
Weight: 3.95 ounces (112 grams)
Chips: A7 chip with 64-bit
architecture
Touch ID: Fingerprint identity sensor
built into the Home button
Display: Retina display
4-inch (diagonal) LED-backlit
widescreen Multi-Touch display with
IPS technology
1136-by-640-pixel resolution at 326 pp
Camera: 8 megapixels with 1.5µ
pixels
Video Recording: 1080p HD video
recording (30 fps)
Hardware: Processor1.3GHz dual-
core Processor make Apple A7 (64-bit
ARMv8)RAM1GBInternal
storage16GB
Software: Operating System iOS 7
25. This presentation was produced by:
Fatima Hasan Mashta
ID No. 434814093
Aljawhara Awadh AlQahdani
ID No. 433817193