AUTOMATED ON-LINE BUSINESS BANDWIDTH PLANNING METHODOLOGY
Closed-loop control is applied to the field of automated on-line business bandwidth planning tools by comparing measured business bandwidth with a baseline for providing a difference indication, changing the baseline according to the difference, and reporting the change as an event relating to a service level agreement.
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This application is a divisional of copending application Ser. No. 13/100,688, filed on May 4, 2011, which is a divisional of application Ser. No. 10/222,190, filed on Aug. 16, 2002, which is a continuation of International Application No. PCT/US01/05021, filed Feb. 16, 2001, which claims benefit of U.S. Provisional Patent Application Ser. No. 60/183,699, filed on Feb. 18, 2000.
The present application discloses subject matter which is disclosed and may be claimed in the following international applications as identified by applicant's attorney's docket nos. 402-127.2-1 (PCT/US01/05119 (now U.S. Pat. No. 7,610,327)), 402-127.4-1 (PCT/US01/05120 (now U.S. Pat. No. 7,260,627)), 402-127.5-1 (PCT/US01/04876 (now U.S. Pat. No. 7,117,261)), and 402-127.8-1 (PCT/US01/04873 (now U.S. Pat. No. 6,763,389)) and which are hereby incorporated by reference.
Application No. PCT/US01/05119 (402-127.2-1(now U.S. Pat. No. 7,610,327)) is directed to a closed loop method for baselining business bandwidth in a network environment.
Application No. PCT/US01/05120 (402-127.4-1 (now U.S. Pat. No. 7,260,627)) is directed to analysis of business bandwidth for control of same.
Application No. PCT/US01/04876 (402-127.5-1 (now U.S. Pat. No. 7,117,261)) is directed to the application of closed loop control to control of business bandwidth.
Application No. PCT/US01/04873 (402-127.8-1 (now U.S. Pat. No. 6,763,389)) is an extension of PCT/US01/05119 (402-127.2-1 (now U.S. Pat. No. 7,610,327)), PCT/US01/05021 (402-127.3-1 (now U.S. Pat. No. 7,966,193)), PCT/US01/05120 (401-127.4-1 (now U.S. Pat. No. 7,260,627)) and PCT/US01/04876 (402-127.5-1 (now U.S. Pat. No. 7,117,261)) with respect to exportation of information in a multiple management environment (multiple users with different SLAs).
BACKGROUND OF THE INVENTION1. Technical Field
This invention applies closed-loop control methodologies to the field of automated on-line business bandwidth planning tools.
2. Discussion of Related Art
Simply stated, the current rate of change in business bandwidth management is getting out of control. IT business owners and service providers are struggling to manage business systems. Transport of data is exploding at unbelievable growth rates and some service providers are straining at full capacity. Even though data from multimedia networks is still a relatively small proportion of the whole, this is expected to change in the near future. The performance of these streaming protocols is not visible to network probes and sniffers. Service providers and business managers mistrust each other due to the stressful environment. Most service provider contracts are now mandating service level agreements (SLAs) to try to get a mechanism in place to enforce what is promised versus what is delivered Business managers are contemplating increasing their out sourcing due to the need for outside assistance in managing their networks and therefore new dynamic services are needed. Furthermore, in view of the fact that dynamic routing and the impending internet to “virtual” services model will obsolete current modeling and planning tools new solutions are needed.
SUMMARY OF INVENTIONAn object of the present invention is to provide an automated on-line business bandwidth planning methodology.
Another object of the present invention is to apply closed-loop control methodologies to the field of automated on-line business bandwidth planning tools.
According to a first aspect of the present invention, a method for use in a network for providing an indication of an actual service level relating to business bandwidth provided in said network according to a service level agreement comprises the steps of measuring a business bandwidth parameter, comparing the measured business bandwidth parameter with a baseline for the parameter for providing a change signal indicative of a change in the business bandwidth parameter, and changing the baseline for the parameter according to the change signal. The method may further comprise the step of recording the change in the baseline for use in reporting a compliance level or non-compliance level within or without the service level agreement. The step of measuring may be carried out by means of passive monitoring of data flow or by introducing data into the network for determining an effect on the step of changing the baseline. Such may also be reported.
According to a second aspect of the present invention, a method for bandwidth management comprises the steps of measuring a parameter relating to business bandwidth and providing a current bandwidth parameter signal having a magnitude indicative thereof, comparing the current bandwidth parameter signal with a baseline signal for providing a difference signal, analyzing the difference signal for modifying the baseline signal. Instead of directly modifying the baseline signal in response to the difference signal, a results notification signal may be provided in response to the difference signal for providing a learning feedback signal, wherein the validation signal is provided in response to the results notification signal.
These planning tools will be used to help both business bandwidth network users and network providers manage and control the growth and high rate of change of business bandwidth. These tools enable automatic planning tools by combining highly accurate monitoring tools and automatic bandwidth simulation tools into a single planning tool framework. The addition of auto characterization and auto partitioning methodologies allows the user to simulate the effects of changes in business bandwidth, then run a real-world test to validate that simulation.
The specific components that make up the closed-loop methodology for planning and managing changes to business bandwidth are (1) business bandwidth measurements according to
Referring first to
Referring first to the measurement domain 10, it includes business bandwidth measurements 16 shown in more detail in
Referring back to
Needs/use change (scale/scope); or
Service denial (specific error/event of application); or
Bandwidth denial (capacity/flow control) (errors/events); or
Specific component that is causing change and why
This detailed change analysis is signaled on lines 50, 52 for purposes of component analysis 54 and impact analysis 56. It should be noted that the components analyzed are for any end point, end-to-end and component-to-component. In addition, distinguishing/monitoring both user application and simulated data allows a finer granularity of control/analysis of the simulation to be carried out in the simulation domain described in
Referring back to
Referring now to the simulation domain 14 of
Increasing overall traffic by “x %” (temporally to same sources/sinks)
Increasing specific application traffic (same sources/sinks) by “x %”.
Adding new sources/sinks (applications) and increasing traffic by “x %”.
Distributing on a line 90 this profile to multiple simulation engines 92 and synchronizing/controlling their executions.
A prediction module 94 exchanges information with the simulation analysis block 70 on a line 96.
Referring to the simulation analysis 70, it is also responsive to the scenario profiles distributed on a line 98 to a run time analysis simulation block 100. This block is also responsive to the various inputs shown in
Referring back to the run time analysis 100, the collected and aggregated simulation effects are provided on lines 106, 108 to analysis blocks 110, 112. The analysis block 110 analyzes the data for the effects of the change and provides an output effect signal on a line 114 to a change analysis block 116 which analyzes the change requirements to determine whether to modify or abort the test. It provides the notice/feedback signal on the line 102 to the simulation control 72.
The analysis block 112 analyzes the data provided on the line 108 and compares it against a prediction provided on the line 96 from prediction module 94 in the simulation engine. It provides an input data and analyzed data output signal on a line 118 to an analysis block 120 in which data is retrieved from multiple locations and an initial analysis is performed.
The simulation control 72 is responsive to the notice/feedback signal on the line 102 as well as the inputs from measuring, learning and baselining and is responsive to the execution signal on the line 98 and a CLNT control signal on a line 106 from a master control 108. In response, the simulation control sends auto control modify notices on a line 110 to the master control 108. The master control 108 is also responsive to the execution signal on the line 98 and provides a finish/abort signal on a line 112 which is used in the block 76 to display the ongoing test report results.
Referring back to the Bandwidth Profile domain 12 of
As more SLA modules are added to the system, the director console receiving the traffic from the SLA modules may become overloaded. To avoid this, the overloaded director clones itself into two or more instances and becomes the parent of the clones. The SLA modules communicating with the parent console will be directed to communicate with the clones. The parent distributes the SLA modules evenly to the cloned directors.
The directors are symmetrical meaning that one can act as a parent or a child. The input and output streams may have identical format and each director console may require its own instances of some data bases.
This mechanism requires a set of available systems and a means of starting the director console which takes a given state information to carry on the needed task. The newly started director consoles will assume the initiating DC as the parent.
Although the invention has been shown and described with respect to a best mode embodiment thereof, it should be understood by those skilled in the art that the foregoing and various other changes, omissions and additions in the form and detail thereof may be made therein without departing from the spirit and scope of the invention.
Claims
1. Method for bandwidth management, comprising the steps of:
- measuring, in a measurement domain of an apparatus, a parameter relating to business bandwidth currently provided according to a service level agreement and providing a current bandwidth parameter signal having a magnitude indicative thereof,
- comparing, in said measurement domain of said apparatus, the current bandwidth parameter signal with a baseline signal for providing a difference signal,
- providing, from a bandwidth profile domain of said apparatus, a validation signal in response to the difference signal for modifying the baseline signal by simulation analysis in a simulation domain of said apparatus, wherein instead of the simulation domain directly modifying the baseline signal by said simulation analysis in response to the difference signal, a results notification signal is provided by said simulation domain in response to the difference signal for providing a learning feedback signal to the bandwidth profile domain for modifying bandwidth profiles, wherein the validation signal is provided in response to modification of the bandwidth profiles for then
- modifying the baseline signal by said simulation analysis in response to said validation signal provided by said bandwidth profile domain of said apparatus to said simulation domain of said apparatus upon said modification of the bandwidth profiles.
2. The method of claim 1, wherein said modifying comprises bandwidth capacity/flow control.
3. Apparatus, configured to:
- measure a parameter relating to bandwidth and provide a current bandwidth parameter signal having a magnitude indicative thereof,
- compare the current bandwidth parameter signal with a service level agreement baseline signal and provide a difference signal, and
- modify the baseline signal in response to the difference signal.
4. The apparatus of claim 3, wherein the modification of the baseline signal comprises bandwidth capacity/flow control.
5. The apparatus of claim 3, wherein:
- the measurement is carried out in a measurement domain of the apparatus, and the measurement is of a parameter relating to business bandwidth currently provided according to said service level agreement and the measurement results in provision of a current bandwidth parameter signal having a magnitude indicative thereof,
- the comparison is carried out in said measurement domain of said apparatus, wherein the current bandwidth parameter signal is compared with said baseline signal for providing said difference signal,
- wherein said apparatus provides, from a bandwidth profile domain of said apparatus, a validation signal in response to the difference signal for modifying said baseline signal by simulation analysis in a simulation domain of said apparatus, wherein instead of the simulation domain directly modifying said baseline signal by said simulation analysis in response to the difference signal, a results notification signal is provided by said simulation domain in response to the difference signal for providing a learning feedback signal to the bandwidth profile domain for modifying bandwidth profiles, wherein the validation signal is provided in response to modification of the bandwidth profiles so that said apparatus then
- modifies the baseline signal by said simulation analysis in response to said validation signal provided by said bandwidth profile domain of said apparatus to said simulation domain of said apparatus upon said modification of the bandwidth profiles.
Type: Application
Filed: Feb 7, 2013
Publication Date: Aug 22, 2013
Applicant: INFRASTRUCTURE INNOVATIONS, LLC (Boston, MA)
Inventor: Infrastructure Innovations, LLC
Application Number: 13/761,232
International Classification: H04L 12/24 (20060101);