Johnson Controls Metasys/IBM Tivoli Demo Booth demonstration will include 2 PCs & demonstration panel. Tivoli PC – LCD Monitor Metasys PC – Plasma Monitor Terry Hoffmann’s or John Gnadinger’s laptops Demo Panel – NCE2566 2 Switches 2 POTs 1 Thermistor Appropriate software points & programming to initiate demonstration of a chiller plant, AHU, and meters.

Outside Air Temperature Chiller 1 Alarm Panel wiring will be cleaned up before bringing to the show. Alarm points are setup and marked according to picture above. All points are setup to alarm and return to normal with appropriate switches or POT. SNMP traps are thrown for alarm initiation and return to normal to facilitate proper action in Tivoli. AHU 1 Smoke Alarm Datacenter Zone Temp AHU 1 Discharge Air Outside Air Temperature

Chiller plant graphic. Chillers 1 – 3 are setup so that when you turn on the chiller, the associated valves and pumps are turned on at the same time. Supply temperature is setup to change according to the number of chillers supplying chilled water. Return temperature is a function of supply temperature plus an offset. JCI Metasys

IBM Tivoli Monitoring – Main Screen This is the initial Tivoli screen monitoring for SNMP traps and multiple points from Metasys (Zone Temperature, primary power meter, power meters 2 – 6, and outside air temperature). IBM Tivoli Monitoring – Main Screen

Top switch thrown will create the Chiller 1 Alarm and show the subsequent alarm on the Metasys graphic screen. This will also initiate the raising of the supply temp and the return water temperature. SNMP trap is thrown and shows in Tivoli – next page. JCI Metasys

SNMP Trap shown as critical alarm in Tivoli.

IBM Tivoli Service Request Manager This is a screen from Maximo as Tivoli will initiate a service ticket upon the SNMP trap from Metasys. This is a static screen in a PowerPoint and is not shown via our demonstration. You will have to talk through this slide the the upcoming slides associated with Maximo. IBM Tivoli Service Request Manager

IBM Tivoli Maximo Enterprise Asset Manager / IBM Tivoli Service Request Manager

Management approval process screen.

Approval Screen for Change Request to move workload IBM Tivoli Change and Configuration Management Database (approval dialog)

Datacenter energy monitoring screen – need to add additional points Datacenter energy monitoring screen – need to add additional points. Active demand limit is the point that triggers a SNMP trap that is sent to Tivoli. Will add 6 meters to screen to show activity in datacenter for submetered data.

Active alarm for peak demand threshold warming – “reduce energy consumption”. SNMP trap sent to Tivoli.

IBM Tivoli Advanced Performance Manager Operations looks at the Current and trending Service Level report in Tivoli Application Performance Manager and determines that is is OK to Lower the Power Cap on Servers IBM Tivoli Advanced Performance Manager

IBM Tivoli Composite Application Manager for Response Time (ITCAM RT)

IBM Tivoli Monitoring for Green Energy

IBM Tivoli Monitoring for Green Energy

IBM Tivoli Advanced Performance Manager Operations looks at the Current and trending Service Level report in Tivoli Application Performance Manager and determines that is is OK to Lower the Power Cap on Servers IBM Tivoli Advanced Performance Manager

Tivoli monitors and manages energy across the data center Business Service Management Facility Design, Maintenance and Remediation Energy Usage and Accounting IT Asset Lifecycle Management Green Management Data Warehouse Data Warehouse Application Response Time Management IT Server Provisioning and Load Balancing Energy cost modeling IT Assets Energy Manager Additional ITM Agents Monitoring & Management Data collection layer for data center assets Monitors energy information in real-time Alerts users to energy-related events and situations Captures information for historical analysis and forecasting Shares energy information with other Tivoli Service Management offerings Enables manual and automated control capabilities (setting power caps, shutting down unused assets, etc.) Application Response Time Management Tracks and reports application response time Provides capability to reduce energy usage while still achieving response time set in service level agreements Energy Usage and Accounting Aggregates power consumption data and determines cost of power consumed Sets a benchmark for energy usage to better track improvements Reports on the amount of power consumed, when it was consumed, and which services are consuming it Introduces accountability for power costs IT Asset Lifecycle Management Tracks asset depreciation, maintenance history, stated power consumption and cost Identifies energy inefficient assets Facility Design, Maintenance and Remediation Maps and allows for visualization of data center facilities Obtains information on power, temperature, and layout, and identifies problem areas (i.e. hot spots) Enables improved facilities management Business Service Management Illuminates the impact of energy issues on business services Provides dashboard for energy management IT Server Provisioning and Load Balancing Allows new servers to be provisioned as needed instead of wasting power in standby mode Gives the capability to move workload to alternative data centers where energy is less expensive or less constrained IT Assets (Servers, storage) Data Center Infrastructure (UPS, PDUs) Metasys (HVAC, power, lighting, security)

Additional alarm – AHU 1 Smoke Alarm triggered by second switch. JCI Metasys

Smoke Alarm JCI Metasys