Versions Compared

Key

  • This line was added.
  • This line was removed.
  • Formatting was changed.

RU 🇷🇺


Table of Contents

Overview

This step is only visible when scheduling in the Optimise Products mode and hidden if it’s set to Constrain to Truck in the Configuration Options step.

When the user presses the button to run one period in the Schedule, there are two passes happening behind the scenes.

Image RemovedImage Added

The Product Specifications step allows the user to define the rules of the optimisation. Each rule becomes a new row in the Calendar. Values for the rule are specified in Schedule > Calendar > Product Specifications.

Product Specifications use an optimisation engine and lets us to set up a Cash Flow equation, which is the series of cash flows and penalties in the form of targets, which makes a decision when we have multiple destinations available.

Recap:

Agent picks an available block based on Dependencies) > looks at the Ranked blocks list to select the highest ranked one > uses the Destination Logic to move material from A to B > stops if hits a Constraint. To choose the final Destination (particularly for the Crusher feed if multiple destinations selected). It’s where the Product Specifications come in.


Adding Product Specification

  1. To add the optimisation rule, press the Add Product Specification button and select a type from the dropdown.

Image Removed
2.
  1. Name the rule clearly. Avoid using commas in the Product Specification rule name, otherwise you will get an error message preventing you from going past this step:

<The name of product specification (…), is invalid because it contains invalid characters>.

3. Toggle the Use Spec flag to enable or disable usage of the Product Specification rule.

4. Click the field in the Configuration column to customise the optimisation rule. Once completed, the configuration field will list all of the populated fields.

Image Added

Product Specification types

Tip

Product Specifications are used to determine the best destination for material at each time step. The best destination is defined as the one yielding the highest positive cash flow, where the Cash Flow is the sum of all Rewards and Penalties.


Detailed description of each Product Specification type and their impact on the optimisation process see below.

Product Specification type

Usage

Cash Flow

Reward (or penalty) to send material to a destination.

Blend Target

Penalty for failing to meet blend ratios.

Grade Target

Penalty for failing for meet grade specs

.Detailed description of each Product Specification type and their impact on the optimisation process see below

.


Cash Flows

Tip

Cash Flows allow the user to specify an incremental Reward or Penalty for each tonne/cubic meter/ounce of material sent to a Destination.

Cash Flows help the user to have better control over the fleet allocation, prioritising more profitable movements.

If two rules satisfy the same condition, then the cash flow is the sum of values in each rule.

Image Removed
Image Added
The

This chart

above

shows an example of the cash flow allocation for prioritising different ex-pit ore movements, namely:

  • The reward for direct ore movement from the Pit to the Crusher is $100, which makes this transaction the most profitable and therefore prioritised by the optimiser.

  • The reward for feeding a unit of high-grade ore from the Pit to the HG stockpile is $20, and medium-grade ore to the MG stockpile is $10, which prioritises moving of the high-grade over medium-grade material.

  • Similarly with the reclaiming of HG and MG stockpiles: since the reward for feeding the Crusher with high-grade material is higher than that for feeding the medium-grade, the HG stockpile will be given greater preference to reclaim.

  • Finally, the mineralised waste movement is the least profitable in comparison to ore flows, but may still be applicable in some periods, such as when high and medium grade ore is not available. If a negative cash flow is placed on this movement, feeding mineralized waste to the Crusher will be penalized because, for example, it may cost more in resource usage (machinery hours, fuel consumption, etc.) than will be received after processing a unit of this type of material.


Stockpiles and Crushers Cash Flows

Tip

Cash Flow rules for Stockpiles and Crushers define a dollars-per-unit rate on material types conveyed between Sources and Destinations.

Once a rule is configured, the rate is specified in the Calendar.

Image Removed
Image Added
  • Set the Source(s), Material(s), Destination(s), and unit (Quantity Field) on which to apply the Cash Flow.

Image RemovedImage Added

Cash Flows by Plant

The example below allows the user to control the priority of the Wet plant and Dry plant, and prefer certain materials into each plant.

  • $30 reward per railed tonne from the Dry plant.

  • $30 reward per railed tonne from the Wet plant.

  • $10 reward per railed tonne of HG from the Dry plant.

  • $10 reward per railed tonne of LG from the Wet plant.

The sum across these values means that HG returns ($40) from the Dry plant and ($30) from the Wet plant, whereas LG returns ($30) from the Dry plant and ($40) from the Wet plant. As such, the optimiser prefers to sent HG to the Dry plant but can top up the Wet plant if required.


Cash Flows by Material

This example prioritises feeding HG first, then MG, then LG, to maximise the returned metal content.

  • $100 reward per feed tonne of HG.

  • $50 reward per feed tonne of MG.

  • $20 reward per feed tonne of LG.


Cash Flow Values

Cash flow values are strictly relative. Setting all fields to "10" is the same as setting all fields to "10000".

Users are encouraged to pick values that express the relative importance of each transaction. For example, if high grade yields twice the revenue of low grade, give it twice the cash flow.


Cash Flows between Stockpiles

Movement between stockpiles incurs a default negative cash flow of (-1000) per bank cubic meter. This prevents the optimiser from going into circular rehandle loops.

To enable movement between stockpiles:

  1. Press Add Product Specification button and from its dropdown select "Stockpile Cash Flow".

  2. Name it as "RehandleThreshold_setTo1000", for example.

  3. Set the units to “mining_” volume or Tonnes, depending on the units you schedule the material in these stockpiles.

  4. Select the Source and Destination stockpile.

  5. In the Calendar, set the cash flow to 1001.

Note

Be careful to only allow one-way passage of material between stockpiles. Do not incentivise the optimiser to engage in non-productive rehandle.


Panel
panelIconIdatlassian-light_bulb_on
panelIcon:light_bulb_on:
panelIconText:light_bulb_on:
bgColor#EAE6FF

It is recommended to split the Crusher Cash Flow into two:

  • one for the Direct Expit material movement to the Crusher,

  • one for the Stockpiles to the Crusher rehandle.

Then, in the Calendar, assign to the Cash Flow from Stockpiles value of = 50 and to the Cash Flow for from Expit movement = 100/ . This will allow you to incentivise the one which is more profitable.


Blend Target

Tip

Blend targets allow the user to specify a maximum or minimum ratio of some material sent into a Crusher or Stockpile.

These targets penalise the optimiser for going off-blend. The optimiser balances between positive Cash Flows and negative blend content deviation penalties to match blocks to Destinations.

Image Modified

Item

Description

Example

Specify Min

Limits minimum ratio of the material fed from the Source to the Destination.

Note

Crusher feed will be zero if it cannot satisfy a Minimum blend ratio. Make sure there is material available before setting a minimum feed ratio. 

Image RemovedImage Added

Specify Max

Limits maximum ratio of the material fed from the Source to the Destination.

Image RemovedImage Added
  • Minimum and Maximum are hard limits, “Actual” values cannot be outside of these boundaries.

    • If Minimum limit cannot be satisfied, the optimiser returns zero.

    • If Maximum limit is reached, no more material can be sent to the specified destination.

  • Note that when setting ratios for multiple plant components, their “Actual” values must add up to 1.

Specify Target

Specifying target also introduces “Content Deviation Penalty” input row in the Calendar.

The difference between the Actual and the Target blend is subject to this Penalty multiplier specified by the user.

The Penalty is summed with the Cash Flows to determine the reward or cost of blending materials into each Destination.

The higher the deviation penalty, the better the optimizer will try to meet the target, but it may not be achieved due to other cash flows and objectives.

Image RemovedImage Added

Show Tram Lines

Displaying additional guidance rows for the optimisation rule in the Calendar.

Used for visual purposes only to change the color of values in the “Actuals” field, i.e. if it goes out of range by more than 0.0001 it goes red, less than orange, otherwise it's black.

Numerator and Denominator

Blend ratios are calculated using a Numerator and Denominator, as such the setup requires both to be populated.

Note

Never configure the Denominator in a way that could return a zero. If the ratio returns a "divide by zero", then crusher feed will be zero.

Destinations

The Destination(s) to which the blend target is applied.

Quantity Field

The field to which the blend target is applied.

Tip

As a general rule, the Numerator and Denominator should use the same units (either dry tonnes for the strict ratio, or wet tonnes for the weightometer ratio).

Sources

The Source(s) for Numerator and Denominator to which the blend target is applied.

View Database

Use the View Database button to open the Choose Records window, where you can graphically select and review the Sources.


Example: blend X up to 10%

This example targets a 10% LG blend into the crusher, but still feeds if there is no LG available.

  • $100 reward per feed tonne of LG.

  • 10% maximum ratio of LG into crusher feed.

Image Removed
Image Added

Tip

Use the Cash Flows to prioritise hitting limits and targets over certain periods.


Grade Targets

Tip

Grade targets allow the user to specify a strict grade range, and place penalty multipliers on deviation from the Target.

Different Destinations may have different Grade targets.

Image Modified
Image Removed
Image Added

Grade Fields

Grade specifications can be set to reference any field in the database.

Type

Example Field

Application

Note

Insitu Fields

mining_grades_fe

Insitu Grade/Head Grade

Use these fields on Stockpiles and Crushers when targeting a head grade.

Process Streams Fields

mining_ProcessStreams_dry_rail_SubProducts_fines_grades_fe

Fines product grade, through the "dry" plant, at the "rail" point

Use these fields to target product grades on Stockpiles.

Since the software does not know what Crusher the Stockpile will feed into, the user is required to specify the Processing Stream of the quantity fields.

To configure the dry/wet, rail/ship, lump/fine process stream options, see Setup > Processing Paths.

mining_ProcessStreams_dry_rail_grades_fe

Total (Lump + Fines) product grade, through the "dry" plant, at the "rail" point

Output Fields

Output>rail_SubProducts_fines_grades_fe

Fines product grade, through the (wildcard) plant, at the "rail" point

Use these fields to target product grades through Crushers.

Since the software knows the Processing Stream for each Crusher, the “Output” fields act as a wildcard to automatically select the corresponding grade fields.


Grade Limits and Targets are explained in the table below.

Input

Description

Notes

Grade Lower Limit

The final weighted average grade cannot be below this value.

  • Individual feed blocks can be lower than the minimum.

  • If multiple destinations are listed, individual destinations can be lower than the minimum.

Grade Limits applied to Product Specifications > StockpileGradeTarget are the weight average of the material added to the Stockpile over a Period. They are not equal to the grades of the stockpile closing balance.

Grade Upper Limit

The final weighted average grade cannot be above this value.

  • Individual feed blocks can be higher than the maximum.

  • If multiple destinations are listed, individual destinations can be higher than the maximum.

Grade Target

The difference between the Actual grade and the Target grade is subject to a penalty multiplier specified by the user.

Net grade penalty = |(Content Deviation Penalty) * (actual grade - target grade) * 100 * (total tonnes)|

The result of this formula is an absolute (always positive) value.

If Crusher A and Crusher B have different grade targets, then a single block will incur a different penalty depending on the destination. This penalty is summed with the Cash Flows to determine the reward or cost of blending materials into each destination.

Content Deviation Penalties

The value of the content deviation penalty should be considered relative to other grades, and relative to the Cash Flow values.

  • If the net grade penalty is greater than the crusher cash flow, then the crusher won't feed.

  • If the Fe grade penalty is greater than the Al grade penalty, then the optimiser may blow out Alumina to keep Iron on spec. This is because the penalty of dirtying Al is lower than the penalty of dirtying Fe.