Transitions: a Roadmap to Low - Power Memory (pdf) - MemCon

Kevin K. Yee Oct 15, 2014 MemCon 2014 Transitions: A Roadmap to Low-Power Memory...

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Transitions: A Roadmap to Low-Power Memory Kevin K. Yee Oct 15, 2014 MemCon 2014

A Look at History

Last three decades – PC driven

Memory Density

2013 gaming laptop 32 GB

2000 gaming computer 4 GB memory

1990 office standard 640 kB memory

1981 IBM PC 16 kB base memory

1980 2

1990

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2000

2010

What drives the market now…next? The next 3 decades - ?

Memory Use by Market Segment 13%

13%

13% 32% 31%

52%

2009 Source: ISH (iSuppli) for 2013

3

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43%

2015

A Look at the Present…Future

New Applications, new systems…new challenges

4

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Shifting Memory Requirements Mobile changes the priority

Mobile Consumer Networking PC/Server

Bandwidth

Power

Cost

Capacity

♦♦ ♦ ♦♦♦ ♦♦♦

♦♦♦ ♦♦ ♦ ♦

♦♦ ♦♦♦ ♦ ♦♦

♦♦ ♦ ♦♦ ♦♦♦

Mobile shifts focus from DDR to LPDDR! * Cadence assessments 5

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Mobile and Low Power DDR LPDDR3 vs. LPDDR4 • LPDDR4 is more power efficient than LPDDR3 for certain tasks • For Mobile applications, this is everything

Active

Power

LPDDR3 Standby

Time Power

Active Standby

LPDDR4

Time 6

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Proof in Point

Today’s Smartphones

Performance

Xaiomi Mi4 16G Apple iPhone 6 128G Apple iPhone 5 32G

Samsung Galaxy S5 32G

2013 7

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2014

2015

The DDR Memory Roadmap

Does JEDEC drive transitions? • Not really • JEDEC drives memory specifications • Memory is a high volume manufacturing business – Driver1: Price – low cost and volume – Driver 2: Need – power or performance

• What is the inflection point? – Price vs. need – Chicken & Egg – low price first or volume demand first (cost)

9

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The DDR Memory Roadmap Memory Specifications HBM HMC Wide IO 2 Wide IO GDDR5 LPDDR4

GDDR4

GDDR3

LPDDR3 LPDDR2

GDDR2 LPDDR

DDR4 DDR3 DDR2 DDR SDRAM

1993

10

2000

2002

2004

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2006

2008

2010

2012

2014

What drives Memory Adoption? Breaking the Cycle • Technology or Price? – – – –

New technology hard to adopt High initial price limits adoption or transition Low initial volume keeps prices high The vicious cycle

• Breaking the cycle – Mobile could be the thing that breaks the cycle – Need is great and the volumes high (quickly) – This means that prices can drop quickly leading to faster adoption – Economy of Scales

11

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What drives Memory Adoption? Need vs. Cost Multi-core Processing Power (1.5 GHz+)

New Content Consumption User Experience

Larger Display (HD  UHD)

Hi-speed Wireless (4G LTE, WiFi

• End Product Needs – Larger and higher resolution displays and cameras – Bigger and faster applications – Bragging rights

• Memory costs – Memory is traditionally driven by cost – If the need is not there it is all about costs – The lower the cost, the faster the adoption 12

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What drives the mobile need? Beyond Power: Density • Screens are getting larger • Smartphones going from 4 inch to 4.7 inch to 5.5 inch • Tablets going from 7 inch to 8.0 inch to 10 inch Flagship Smartphone Memory Density

2Gb LPDDRx

4Gb LPDDRx

6~8Gb LPDDRx

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Year

Memory Density

Memory Type

2009

256MB

LPDDR

2010

512MB

LPDDR

2011

1GB

LPDDR2

2012

2GB

LPDDR2

2013

2GB

LPDDR3

2014

3GB

LPDDR3

2015

4GB ?

LPDDR3/4 ?

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More Bandwidth in Mobile Higher resolution and screen size  Resolution is getting higher  From 1280x720 to 3840x2160 and beyond  > size and resolution = > Memory Screen size progression for smartphone and tablets 10

9

Tablets

9

Inches

8 7 5.7

6 5

4.5

Smartphones

3.4

4 3 2

2.3 1

1 0 HD 1280x720

14

FHD 1920x1280

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QXGA 2048x1536

1

WQXGA 2560x16006

QSXGA 2560x2048

UHD 3840x2160

More Performance in Mobile From 400 to over 3200

Memory Speed in Mbps

4500

4266

4000 3500

3200

3000

PC-DDR4 Bandwidth

2500 2000

LPDDR4

1600

1500

1066

1066

LPDDR3

800

1000 500

2133

400

400

LPDDR2

0 2007

15

2008

2009

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2010

2011

2012

2013

2014

2015

Case Study: Apple iPhone and iPad Volume and ramp rates iPhone Unit Sales 60000

47789

50000

37044 35064

40000

26028 26910

30000 20000 10000

8700 8752 8398

14102

20338 16235 18647 17073

0 2010

Q2

Q3

Q4

2011

Q2

Q3

Q4

2012

Q2

Q3

iPad Unit Sales

Q4

2013

Data from Macworld

60000

22860

50000 40000

30000 20000 10000

3270

4188

Q3

Q4

7331

4694

9246

11123

15434

17042 11798

14036

0 16

2011

Q2

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Q3

Q4 Source: Macworld

2012

Q2

Q3

Q4

2013

Case Study: Apple iPhone Apple iPhone volume and ramp rates!

A Game Changer: 5 Million phones in a weekend

20 Million phones in a month

17

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Source: Macworld

LPDDR transitions in Apple iPhone Models iPhone Memory Size/Type 1500

?

1250 1 GB LPDDR2

1 GB LPDDR3

1000

750 512MB LPDDR2

500

250

128MB LPDDR

256MB LPDDR

0 iPhone 2007

iPhone 3GS 2009 Source: Wikipedia, 10/2014 18

iPhone 3G 2008

iPhone 4 iPhone 4S iPhone 5 iPhone 5C iPhone 5S iPhone 6 2010 2011 2012 2013 2014 2014

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2015

Case Study: Xiaomi Smartphone Record Shipment in 2014

Source: Xiaomi web site, 10/2014 19

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WW smartphone shipments 2009~2018 1800 1600

Units in Millions

1400 1200 1000 800 600 400 200 0 2009

2010

2011

2012

2013

2014

2015

2016

Mobile Volumes will impact the Low-Power Memory Transition ! Source: Wikipedia, Gartner, Statista, 2014

20

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2017

Smartphone shipments in China 2011~2013 100 95

90

91 87

80 78 70 70 60

62

50 45

40 36 30

33 26

20 17 10

15

0 Q1, 11

Q2,11

Q3, 11

Q4, 11

Q1, 12

Q2, 12

Q3, 12

Units in Millions Source: Wikipedia, Gartner, Statista, 2014

21

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Q4, 12

Q1, 13

Q2, 13

Q3, 13

Q4, 13

LPDDR Exceed DDR in Performance Mobile moves into PC space

LPDDR Performance is converging! 22

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LPDDR & DDR Price converging Little to No Premium for Low Power 4Gb Equivalent prices of DRAM Alternatives

 1Q 2012 Pricing − 4Gb LPDDR -> − 4Gb DDR3L -> − LP Premium =

$6.80 $4.20 62%

$7 LPDDR3 x32

$6 LPDDR2 x32

 Mid 2013 Avg. Forecast − 4Gb LPDDR2 -> − 4Gb DDR3L -> − LP Premium =

Convergence

DDR3L-RS x32

$4.75 $3.60 32%

$5

DDR3L-RS x16

$4

DDR3L x16

 Mid 2013 Avg. Forecast − 4Gb LPDDR3 -> − 4Gb DDR3L -> − LP Premium =

$6.40 $3.60 78%

$3

$2

$1 Q1

Q2

Q3

2012

23

© 2014 Cadence Design Systems, Inc. All rights reserved. Source: JEDEC Mobile Forum 2013

Q4

Q1

Q2

Q3

2013

Q4

Q1

Q2

Q3

2014

Q4

Mobile Market Transition Low Power High B/W Memory 120

100

WideIO2 LPDDR3

LPDDR2

80

LPDDR4

60

40

20

0 2010

2011 LPDDR

2012 LPDDR2

2013 LPDDR3

2014 LPDDR4

2015

2016

Wide IO

LPDDR Roadmap Transition is happening! 24

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The Low-Power Memory Roadmap Transition Summary • Factors Driving Transition

LPDDR4

– Lower power – Greater bandwidth – Higher volume/lower cost

• Transition is happening NOW!

LPDDR3

– From DDR to LPDDR – From LPDDR3 to LPDDR4

LPDDR2

DDR

25

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