liam newcombe bcs data centre specialist group secretary modelling data centre energy efficiency and...

Liam NewcombeBCS Data Centre Specialist Group Secretary

Modelling Data Centre Energy Efficiency and Cost

BCS Data Centre Simulator

Background

Overview of Tools

Structure of the BCS Simulator

Input Data

Sample Output

Development Path

Background

Power Loss Chain – Fossil Fuel – CPU Used

90% 5% 5%

Transmission Losses

Transformer Losses

Data Centre

40% 25% 35%Cooling Losses

Power Infrastructure

IT Equipment

0.5% of Fossil Fuel Energy

65% 20% 15%Network Equipment

Storage Equipment

Servers

30% 45% 25%Power Supply

Other Components

CPU

20% 80%Idle Time Power

CPU Load Power

35% 65%Heat Exhausted

Electricity GeneratedFossil Fuel

Data Centre

Equipment

Servers

CPU

CPU Utilisation

“For each £ or Watt my Data Centre consumes what output do

I get?”

vs.

“For each Service I deliver what is the financial and energy

cost?”

Data Centre Cost and Energy

Overview of Tools

Tool Coverage

• Existing tools– Computational Fluid Dynamics– Server benchmarking– Chiller technology comparisons– Carbon ‘calculators’– Device specific comparators

Tool Problem

When the only tool you have

is a hammer everything

looks like a nail1

1) Abraham Maslow

Tool Problem

The data centre is not a set of independent components that can be individually tuned

The data centre is a complex and interdependent system

Only a holistic tool can give useful answers

Ap

plic

atio

nW

ork

load

IT D

evic

e

PD

Us

UP

S

CR

AC

s

Ch

iller

Air

Flo

w

Clim

ate

Po

wer

Co

st

En

erg

y U

se

Car

bo

n

Inte

nsi

ty

BCS Simulator Coverage Areas

Var

iati

on

Ap

plic

atio

nW

ork

loa

d

IT D

evic

e

Tim

e

Wor

klo

ad

PD

Us

Ele

ctric

al L

oad

UP

SE

lect

rical

Loa

d

CR

AC

sT

otal

The

rmal

Los

ses

Ch

iller

Clim

ate

Air

Flo

wT

otal

The

rmal

Los

ses

Clim

ate

Tim

e

Po

wer

Co

stT

ime

En

erg

y U

seE

very

thin

g E

lse

Car

bo

n

Inte

nsi

tyS

ourc

e of

Ene

rgy

Dat

a C

entr

e La

yout

Air

Flo

w

CR

AC

Loa

d

Ene

rgy

Co

st

Loca

tion

BCS Simulator Understands Variability

Var

iati

on

Ap

plic

atio

nW

ork

loa

d

IT D

evic

eW

orkl

oad

Po

wer

Co

st

Server Benchmarking

Var

iati

on

CR

AC

sT

ota

l The

rma

l Los

ses

Ch

iller

Po

wer

Co

st

En

erg

y U

se

CR

AC

Lo

ad

Ene

rgy

Cos

t

Chiller Technology Comparisons

Clim

ate

Loc

atio

n

Var

iati

on

IT D

evic

e

Air

Flo

wD

ata

Cen

tre

Lay

out

CFD Analysis

Framework Tool

One tool to cover the entire system, allowing the simulation of components in a realistic context.

No need to develop more partial tools, you can now contribute to the open, trusted tool instead.

Framework Tool

Designed to facilitate the incorporation of new or enhanced component models and data

Publish performance data in standard formats that we can use to compare devices

Structure of the BCS Simulator

BCS Data Centre Model

IT Workload

IT Device Load to Power Function

Data Centre Power Transfer Function

Server Workloads

0 20 40 60 80 100

Percent Load

Pro

po

rtio

n

Server Power Utilisation by Load

0

100

200

300

400

500

0% 20% 40% 60% 80% 100%

Load

Wa

tts

Data Centre Power Transfer Functions

0200400600800

1,0001,2001,4001,6001,800

0 200 400 600 800 1,000

kW

IT Electrical Load (kW)

Inp

ut

Po

wer

IT DeviceData

Overall Energy Use

Overall Costs

IT Device

WorkloadData

IT DeviceData

Workload to Power function

Overall Energy Use

Overall Costs

IT Device Costs

IT Device Costs

WorkloadData

IT DeviceData

Workload to Power function PDU

CRAC Units

Chiller Plant

UPS

Master PDU

TransformerOverall

Energy Use

Overall Costs

IT Device Costs

IT Device in a Data Centre

WorkloadData

IT DeviceData

Workload to Power function PDU

CRAC Units

Chiller Plant

UPS

Master PDU

Transformer

Climate Data

IT Electrical Loads

Overall Energy Use

Overall Costs

IT Device Costs

IT Device in a Data Centre

WorkloadData

IT DeviceData

Workload to Power function PDU

CRAC Units

Chiller Plant

UPS

Master PDU

Transformer

Device Energy Costs

Energy Costs

Allocation Mechanism

Climate Data

Simulation Options

IT Electrical Loads

Overall Energy Use

Overall Costs

IT Device Costs

Energy Costs

WorkloadData

IT DeviceData

Workload to Power function PDU

CRAC Units

Chiller Plant

UPS

Master PDU

Transformer

Power Provisioning

Facility Capital Costs

Facility Costs

Device Energy Costs

Energy Costs

Allocation Mechanism

Allocation Mechanism

Climate Data

Simulation Options

IT Electrical Loads

Overall Energy Use

Overall Costs

IT Device Costs

Per Device Costs

Input Data

Fully Representative Data

15

913

1721

1 7 13 19 25 31 37 43

£0.00

£0.05

£0.10

£0.15

£0.20

£0.25

kWh Unit Cost

Hour of Day

Month

Utility Power Costs

£0.20-£0.25

£0.15-£0.20

£0.10-£0.15

£0.05-£0.10

£0.00-£0.05

Open XML Formats

Sample Output

Example Scenario

Simulator Output

Same Computing Workload

100 One App Per Server Servers

15 Virtualised Servers

10 HPC Grid Servers

Old N+1 Data Centre, Nameplate Provisioning

Simulator OutputOld N+1 Data Centre, Nameplate

Overall IT Device(s) Cost

£0

£200,000

£400,000

£600,000

£800,000

£1,000,000

One App Per Server Virtualised HPC Grid

Co

st

Fixed Overhead PowerCost

Proportional OverheadPower Cost

IT Device PSU PowerCost

M&E Infrastructure,Overprovisioning Cost

M&E Infrastructure,Utilised Cost

Maintenance Cost

Hardware Cost

Old N+1 Data Centre, Nameplate

Overall IT Device(s) Energy Use

0

500,000

1,000,000

1,500,000

2,000,000

2,500,000

One App Per Server Virtualised HPC Grid

En

erg

y U

se

d k

Wh

Proportional OverheadPower

IT Device PSU Power

Fixed Overhead Power

Simulator Output

Example Scenario

Same Computing Workload

100 One App Per Server Servers

15 Virtualised Servers

10 HPC Grid Servers

New N+1 Data Centre, Free Cooling

Simulator Output

New N+1 Data Centre, Free Cooling 19°C

0%25%

50%75%

100%

-100

1020

3040

0.00

0.20

0.40

0.60

0.80

DCiE

IT Electrical Load

Temp

DCiE by IT Electrical Load and External Temperature for Free Cooling

0.60-0.80

0.40-0.60

0.20-0.40

0.00-0.20

Simulator Output

New N+1 Data Centre, Free Cooling 25°C

0%25%

50%75%

100%

-100

1020

3040

0.00

0.20

0.40

0.60

0.80

DCiE

IT Electrical Load

Temp

DCiE by IT Electrical Load and External Temperature for Free Cooling

0.60-0.80

0.40-0.60

0.20-0.40

0.00-0.20

Simulator Output

New N+1 Data Centre, Free Cooling 25°C

Overall IT Device(s) Cost

£0

£200,000

£400,000

£600,000

£800,000

£1,000,000

One App Per Server Virtualised HPC Grid

Co

st

Fixed Overhead PowerCost

Proportional OverheadPower Cost

IT Device PSU PowerCost

M&E Infrastructure,Overprovisioning Cost

M&E Infrastructure,Utilised Cost

Maintenance Cost

Hardware Cost

Simulator Output

New N+1 Data Centre, Free Cooling 25°C

Overall IT Device(s) Energy Use

0

500,000

1,000,000

1,500,000

2,000,000

2,500,000

One App Per Server Virtualised HPC Grid

En

erg

y U

se

d k

Wh

Proportional OverheadPower

IT Device PSU Power

Fixed Overhead Power

Simulator Output

Development Path

Development Path

Data Centre energy use and cost is a complex problem that we are only starting to understand

Deliver marginal and fair share, per business service energy and financial costs to enable holistic carbon management

Development Path

Individual component ‘calculators’ are ineffective without the context of a holistic model

Device level A-G style simple labelling is not effective in a data centre environment

Development Path

? ? ? ? E=mc2

As our understanding of the data centre grows we will be able to use the more complex capabilities of the simulator

Development Path

Opportunities for Further Research and Development

• IT Device Performance– Configuration– Workload– Generalised Metrics ( Performance / Energy )– Networking– Storage

Development Path

Opportunities for Further Research and Development

• Application Performance– Hardware interaction– Impact of the working data set– Optimisation

Development Path

Opportunities for Further Research and Development

• Economics ( Cost and Energy )– Intelligent task deployment– Per task accounting– Automated in-source / out-source decisions– Real time cost management and reporting– Policy based management

Development Path

Opportunities for Further Research and Development

• Physics– Integrated Computational Fluid Dynamics– Chiller plant behaviour and management– Workload assignment

Development Path

Opportunities for Further Research and Development

• Electrical / Electronic Engineering– Power infrastructure performance and loss

characteristics– Dynamic self provisioning electrical

infrastructure