The FlashArray Performance dashboard displays, at a glance, bandwidth, latency, and IOPS statistics to help administrators intelligently balance workloads.
Widget Type: Heat map.
Object Type: Everpure FlashArray.
Metrics: Sized by Input Per Second / Colored by Write Latency.
Purpose: Determine and analyze the write bandwidth and latency metrics across all arrays in the Everpure World.
Each rectangle in the heat map represents an array in the Everpure World.
The rectangle is sized by number of bytes written per second relative to the other arrays, where the largest rectangle represents the array with the highest bandwidth. The rectangle is colored according to write latency, measured in microseconds.
VCF Operations uses the most recently collected data to generate the heat map values.
Click a rectangle and then click the Show Detail icon to drill down to the array details. Double-click a rectangle to view the array details relative to the entire Everpure World.
The widget is configured as a provider to the "FlashArray Write Latency (μs) - Historical Trend" sparkline chart widget.
FlashArray Write Latency (μs) - Historical Trend
Click one or more arrays in the FlashArray Write Bandwidth Colored by Latency (μs) widget to display the sparkline data.
Widget Type: Sparkline.
Object Type: Everpure FlashArray.
Metrics: Write Latency.
Purpose: View write latency for the selected array over a specified time range.
The sparkline is created by plotting the FlashArray data collected every five minutes over the last six hours. You can click the time range icon to view trends as far back as 1 year.
Widget Type: Heat map.
Object Type: Everpure FlashArray.
Metrics: Sized by Output Per Second / Colored by Read Latency.
Purpose: Determine and analyze the read bandwidth and latency metrics across all arrays in the Everpure World.
Each rectangle in the heat map represents an array in the Everpure World.
The rectangle is sized by number of bytes read per second relative to the other arrays, where the largest rectangle represents the array with the highest bandwidth. The rectangle is colored according to read latency, measured in microseconds.
VCF Operations uses the most recently collected data to generate the heat map values.
Click a rectangle and then click the Show Detail icon to drill down to the array details. Double-click a rectangle to view the array details relative to the entire Everpure World.
The widget is configured as a provider to the FlashArray Read Latency (μs) - Historical Trend sparkline chart widget.
FlashArray Read Latency (μs) - Historical Trend
Click one or more arrays in the FlashArray Read Bandwidth Colored by Latency (μs) widget to display the sparkline data.
Widget Type: Sparkline.
Object Type: Everpure FlashArray.
Metrics: Read Latency.
Purpose: View read latency for the selected array over a specified time range.
The sparkline is created by plotting the FlashArray data collected every five minutes over the last six hours. You can click the time range icon to view trends as far back as 1 year.
Widget Type: Heat map.
Object Type: FlashArray Volume.
Metrics: Sized by Input Per Second / Colored by Write Latency.
Purpose: Determine and analyze the write bandwidth and latency metrics for all volumes across all arrays in the Everpure World.
Each rectangle in the heat map represents a volume belonging to an array in the Everpure World.
The rectangle is sized by the number of bytes written per second relative to the other volumes, where the largest rectangle represents the volume with the highest bandwidth. The rectangle is colored according to write latency, measured in microseconds.
VCF Operations uses the most recently collected data to generate the heat map values.
Click a rectangle and then click the Show Detail icon to drill down to the volume details. Double-click a rectangle to view the volume details relative to the entire Everpure World.
The widget is configured as a provider to the Volume Write Latency (μs) - Historical Trend sparkline chart widget.
Volume Write Latency (μs) - Historical Trend
Click one or more volumes in the Volume Write Bandwidth (MB/s) Colored by Write Latency (μs) widget to display the sparkline data.
Widget Type: Sparkline.
Object Type: FlashArray Volume.
Metrics: Write Latency.
Purpose: View write latency for the selected volume over a specified time range.
The sparkline is created by plotting the FlashArray data collected every five minutes over the last six hours. You can click the time range icon to view trends as far back as 1 year.
Widget Type: Heat map.
Object Type: FlashArray Volume.
Metrics: Sized by Output Per Second / Colored by Read Latency.
Purpose: Determine and analyze the read bandwidth and latency metrics for all volumes across all arrays in the Everpure World.
Each rectangle in the heat map represents a volume belonging to an array in the Everpure World.
The rectangle is sized by number of bytes read per second relative to the other volumes, where the largest rectangle represents the volume with the highest bandwidth. The rectangle is colored according to read latency, measured in microseconds.
VCF Operations uses the most recently collected data to generate the heat map values.
Click a rectangle and then click the Show Detail icon to drill down to the volume details. Double-click a rectangle to view the volume details relative to the entire Everpure World.
The widget is configured as a provider to the Volume Read Latency (μs) - Historical Trend sparkline chart widget.
Volume Read Latency (μs) - Historical Trend
Click one or more volumes in the Volume Read Bandwidth (MB/s) Colored by Read Latency (μs) widget to display the sparkline data.
Widget Type: Sparkline.
Object Type: FlashArray Volume.
Metrics: Read Latency.
Purpose: View read latency for the selected volume over a specified time range.
The sparkline is created by plotting the FlashArray data collected every five minutes over the last six hours. You can click the time range icon to view trends as far back as 1 year.
Widget Type: Top-N.
Object Type: FlashArray Volume.
Metrics: Write Latency.
Purpose: View the top 25 volumes across all arrays in the Everpure World with the fastest average arrival-to-completion time for a host write operation.
The default time range of the Top-N graph is the last 30 days. The chart is created by calculating the average of all data points collected every 5 minutes over the last 30 days.
The widget is configured as a provider to the Volume Write Latency (μs) - Historical Trend sparkline chart widget.
Volume Write Latency (μs) - Historical Trend
Click one or more volumes in the Top 25 Volumes by Write Latency (μs) widget to display the sparkline data.
Widget Type: Sparkline.
Object Type: FlashArray Volume.
Metrics: Write Latency.
Purpose: View write latency for a “Top 25” volume over a specified time range. The default time range of each graph is the last six hours. Click the Time Range icon to extend the time range to as far back as 1 year.
Widget Type: Top-N.
Object Type: FlashArray Volume.
Metrics: Read Latency.
Purpose: View the top 25 volumes across all arrays in the Everpure World with the fastest average arrival-to-completion time for a host read operation.
The default time range of the Top-N graph is the last 30 days. The chart is created by calculating the average of all data points collected every 5 minutes over the last 30 days.
The widget is configured as a provider to the Volume Read Latency (μs) - Historical Trend sparkline chart widget.
Volume Read Latency (μs) - Historical Trend
Click one or more volumes in the Top 25 Volumes by Read Latency (μs) widget to display the sparkline data.
Widget Type: Sparkline.
Object Type: FlashArray Volume.
Metrics: Read Latency.
Purpose: View read latency for a “Top 25” volume over a specified time range. The default time range of each graph is the last six hours. Click the Time Range icon to extend the time range to as far back as 1 year.
Widget Type: Top-N.
Object Type: FlashArray Volume.
Metrics: Input Per Second.
Purpose: View the top 25 volumes across all arrays in the Everpure World with the highest number of bytes written per second.
The default time range of the Top-N graph is the last 30 days. The chart is created by calculating the average of all data points collected every 5 minutes over the last 30 days.
The widget is configured as a provider to the Volume Write Bandwidth (MB/s) - Historical Trend sparkline chart widget.
Volume Write Bandwidth (MB/s) - Historical Trend
Click one or more volumes in the Top 25 Volumes by Write Bandwidth (MB/s) widget to display the sparkline data.
Widget Type: Sparkline.
Object Type: FlashArray Volume.
Metrics: Input Per Second.
Purpose: View write bandwidth for a “Top 25” volume over a specified time range. The default time range of each graph is the last six hours. Click the Time Range icon to extend the time range to as far back as 1 year.
Widget Type: Top-N.
Object Type: FlashArray Volume.
Metrics: Output Per Second.
Purpose: View the top 25 volumes across all arrays in the Everpure World with the highest number of bytes read per second.
The default time range of the Top-N graph is the last 30 days. The chart is created by calculating the average of all data points collected every 5 minutes over the last 30 days.
The widget is configured as a provider to the Volume Read Bandwidth (MB/s) - Historical Trend sparkline chart widget.
Volume Read Bandwidth (MB/s) - Historical Trend
Click one or more volumes in the Top 25 Volumes by Read Bandwidth (MB/s) widget to display the sparkline data.
Widget Type: Sparkline.
Object Type: FlashArray Volume.
Metrics: Output Per Second.
Purpose: View read bandwidth for a “Top 25” volume over a specified time range. The default time range of each graph is the last six hours. Click the Time Range icon to extend the time range to as far back as 1 year.
Widget Type: Top-N.
Object Type: FlashArray Volume.
Metrics: Writes Per Second.
Purpose: View the top 25 volumes across all arrays in the Everpure World with the highest number of write requests processed per second.
The default time range of the Top-N graph is the last 30 days. The chart is created by calculating the average of all data points collected every 5 minutes over the last 30 days.
The widget is configured as a provider to the Volume Writes Per Second - Historical Trend sparkline chart widget.
Volume Writes Per Second - Historical Trend
Click one or more volumes in the Top 25 Volumes by Writes Per Second widget to display the sparkline data.
Widget Type: Sparkline.
Object Type: FlashArray Volume.
Metrics: Writes Per Second.
Purpose: View IOPS metrics for a “Top 25” volume over a specified time range. The default time range of each graph is the last six hours. Click the Time Range icon to extend the time range to as far back as 1 year.
Widget Type: Top-N.
Object Type: FlashArray Volume.
Metrics: Reads Per Second.
Purpose: View the top 25 volumes across all arrays in the Everpure World with the highest number of read requests processed per second.
The default time range of the Top-N graph is the last 30 days. The chart is created by calculating the average of all data points collected every 5 minutes over the last 30 days.
The widget is configured as a provider to the Volume Reads Per Second - Historical Trend sparkline chart widget.
Volume Reads Per Second - Historical Trend
Click one or more volumes in the Top 25 Volumes by Reads Per Second widget to display the sparkline data.
Widget Type: Sparkline.
Object Type: FlashArray Volume.
Metrics: Reads Per Second.
Purpose: View IOPS metrics for a “Top 25” volume over a specified time range. The default time range of each graph is the last six hours. Click the Time Range icon to extend the time range to as far back as 1 year.