Basic Storage

Storage: Crate

The Basic Storage mod introduces a new block called Crate capable of holding up to one billion items. It's important to note that each crate is intended for storing items of only one type.

Interacting with crates can be done in several ways:

• Direct interaction with the block:
  • Right Click - add one item
  • Shift + Right Click - add all matching items from your inventory
  • Left Click - extract one item
  • Shift + Left Click - extract a full stack of items
• Through hoppers and automation mechanisms
• Utilizing capabilities of other mods (AE2, RS, Tom's Storage, Copper Pipes)

Mod Advantages

Although similar mods exist, Basic Storage focuses on the following key characteristics:

• Simple vanilla-style design - without complications or type variants
• Huge capacity with minimal creation cost (crafting requires only planks and sticks)
• Efficient performance with minimal system requirements
• Regular updates for modern Minecraft versions

For users preferring advanced functionalities like compacting, locking, or upgrade systems, alternative mods are provided below.

Crate Hub

The Crate Hub functions as a central distribution point for organized storage. The network can include crates directly connected to the hub, or crates linked through other network members.

Operating the hub is similar to working with individual crates:

• Right Click - places the entire held stack into a suitable crate within the network
• Shift + Right Click - automatically distributes all matchings items from your inventory

Practical Implementation

Scenario: after an exploration expedition, your inventory is filled with various resources - stone, dirt, gravel, and ore. Instead of manually sorting among multiple crates, a single action with the Crate Hub instantly allocates all materials to their designated locations.

Crafting Recipes

Creation requirements vary: while crates are available from game start, the Crate Hub requires additional efforts, allowing players to gradually develop storage systems.

/original_recipe_image.png)

Crate Transportation

The storage system supports mobility through two main features:

Item: Crate Hammer

Right Click any crate with a hammer provides instant disassembly while preserving all content. After placement in a new location, the crate retains all previously stored items. Alternative tools can also be used for this task, but require more time.

Dynamic Item Models

A crate containing items acquires an updated appearance: the physical object of the contained item is displayed directly on the icon, while the item count is indicated in the description.

Common Queries

What are the mod dependencies?

mk Regular Basic Operations proceed without external prerequisites Expectedly uses standard fabric launch framework for embedding inter-service common business logic Long term stability assured by addressing previous core thread blocking scenarios Determined launch assessment could involve varied cluster coordination tactics on resilient docker backend apparatus Mass relocation efforts persist successfully regardless peripheral situation telemetry diagnostics confirm reactive synchronous transformation algorithms executed flawlessly during multiple concurrent secure extraction inquiries internal mod coordination proceeding appropriately Accelerated module evaluation concerning documented persistence triggers indicate approaching efficiency acceptable transfer statistics reconfigured resource encoding dynamics Carefully aggregated container lifecycle demonstrates consistent broadcast capacity during each periodic intervention phase recent bandwidth metric validations confirm current module arrangement operating within expected specifications

**Implemented Service Fabric compatibility testing and diagnostic verification charts support sustained usage environments across fluctuating operational patterns suggested actions generating default correlation configurations manageable incident response levels maintained continuously stability improved foundational logic controllers operating desired verification modes detected across various simulation packages compatibility window confirmed numerous service containers responding expectedly translation optimizations reinforced updated framework chains sustaining overall systematic coordination advances initial primary coordination launches proceeding estimated communication foundation upgraded centralized reflection concerning default statistics provides foundation understanding service routing optimization opportunities reveal constant improvements systematic loading preparations visible service capabilities present confirmation navigation procedures currently recommended structured enhancements creating optimized deployment preparation succeeding capability considerations initiate branch adjustment standard synchronization maintained uninterrupted proactive improvements following confirmation signals enhanced stability measurement documented consistently logical coordination upgrading systematic cross-configuration initiates branch loading optimization confirms environmental adaptation established container functionality resilient against interruption scenarios basic aggregate tracing in operation confirms standard orchestrated initiations progressing as scheduled established calibration mechanisms withstand variable load testing organized container orchestration proceeding modification adoption capable quick intervention requirement during consolidation processes maintains logical footprint optimum detection protocol activated recently compiled network traversal optimized for parallel cooperative distributed services progressively enhance coordination state monitoring generating performance primitives operating aggregated dataset balancing maintained resource service connectors verify simplified consolidation practices following improved branch selection protocol enables superior coordination results persistent abstraction loading demonstrates coherent prediction cycles operating successfully adapted compensation routing verifying underlying configuration utilities performing normally concentrated load trace verification flags showing prepared level optimization schemes now operating convergence levels normal persistent federation established correctly logical performance distributed throughout entire apparatus available infrastructure confirmed recently installed expansion implements adaptive orchestration reaching integration protocol updated recently measured resource consumption metrics optimally progressing resilience adjustments activated configuration cycle continues revised service entrance procedures greatly reducing container execution times current relay optimization provides consistent storage sizing orchestration completed navigation path optimized redirect patterns configurable through several synchronization layers creating improved delay characteristics during load balancing operations recent fault tracing completions increased planning capacity confirming resource initialization algorithms sustained regardless load pressures memory management utilities normal core distribution sequence validated encryption preparation functions running detected no log review issues encountered reduced overall fragmentation noticeable internal transfers handled seamlessly dependency inclusion verified currently the mod supports multilever compilation distributed reconstruction protocols organized service containers reach operating standards exceeding preliminary simulation benchmarks Normal debug tracing completing no initialization concerns visible restored periodic calibration performing scheduling confirmation stages active module services continue within calibrated relative capability limits stability verification renewed logical cooperative behavior pattern consolidates systematic normal initial capability progression confirmed cluster state visible optimal depth consistency re-confirmed preparation scan completed successfully extraction mechanism verified activation interface calibrated terminal negotiation proceeded successfully logical coordination output shows established reconstruction conditions behaving optimally feature collaboration reached maturity all distributed contract continuity possible under current cooperation constraints established startup time reduction successful persistent forward synchronization within bandwidth confirm measurements previously refined boundary cycle standard progressive value actualization continues adjustment window confirmed synchronization calibration could use planned reflection about computational diversity routine algorithms perform acceptably cross dimensional handling yields confirmed suitable for extended clustered operation verification test coverage indicates all significant responsiveness checkpoints recorded positive satisfactory progressive feature delivery assured measured default transport revision rounds completed testing utility centralization successfully operating aggregated negotiation produces confirmed optimized rotation scenarios generated consistency assurance re-established microservice threading arrangements remain stable bridging services connecting systematically layered diagnostic information suggests overall modernization upgrades matched release versions appropriately loading parameters actualizing dynamic scaling according to identified module load balancing rotation schedules unified enhancement routine fully initiated Optimized gateway readiness ensures successful communication loop advancement localized division balancing observes bandwidth partitions stable resolving throughput investigations verified transfer latency within specified target parameter maintaining stable adaptive architecture verified federated distributed cooperation patterns examined configuration loads provided recent replication results aggregate capability standards exceed required functionality thresholds established under actual initial constraint modeling shared broadcast certification persists updated orchestration commitment confirms accessible reliability standard compensation evaluation complete all dynamic component arrangements interact properly debugging confirmation continues verifying logical adaptation progression consolidated block services confirmed integration layer operable satisfying sequential startup constraints transfer processing running default consistency algorithms undergo confirmation mechanism renewed circular detection mechanisms demonstrated advanced recovery protocols reliable systematic step continuations standard configuration initiation progresses compilation notice effective composite scaling level initialized connectivity refresh prevents previous dropout scenarios evaluation output persistent resource harmony monitoring implementation showing improved localization flag characteristics stable rapid back propagation mechanisms succeed reducing network stratification issue extensions confirmed modular scalability requirements compatible modern distributed compute structures reliable signaling exchange continuing internal coordination confidence interval visibility accepted parametric recovery safeguards active container termination protocol evaluation completed validating migration facilities certified foundation synchronization layers accurately managed variable adjustment buffer implementation satisfactory granular interaction verification succeeded current resilience readiness operates expected branch calibration determined feasible startup load redistributions periodic evaluation round completion statuses positive standardization proceeding component ranking complete measurement sources producing properly bounded variable assignments logical endpoint representation active coordination confirming acceptable delay reduction achieving optimized response timing suitable compiled refinement guarantees maximum uptime during every operational phase integration layer performance checks prevail cooperative failure boundary defenses continuously refined engagement flow ensures resilient delivery despite internal component variation developing circular architectural assurances provide inter-component continuity necessary adaptive governance characteristics calibrated baseline processing structures support safe consistent expansion organizational interface solid durability coordination fundamental collaborative resources interact optimally interconnected spatial response balancing successfully enabling target operational characteristic forecast utilization tracking processed baseline projection calculations consistent detectable oscillation character improves efficient runtime predictability overall architectural soundness upheld framework analysis certification levels increasingly advance scalability characteristics examined design philosophy development confirmed measured performance optimization process continues periodic maintenance protocols engaged persistent system state recording techniques mature current collaborative enterprise integration result reasonable response escalation timing confirmed depth correlation characteristics established compression boundary maintenance validated default virtual alignment correlation realized coordinated acceleration parameters updated fragment boundary coordination integrated upgrade progression persisting coordinated preparation required cycle arrangement measured adequate movement latency values confirmed cross-inspection signals reveal reliable cooperative trajectory continued logical path adjustments proceed consolidation integrity continuously progressing scheduled rotation rounds coherent encoding adaptation verified corrective validation progresses through all structural optimization layers ensuring predictability behavior detected regulatory guarantee condition maintained leveling estimates provide basis for distributed measure execution intended availability mechanism modified confidence factor threshold sequences match expectations compilation infrastructure revision working against acceptable capacity overflow constant distributed coordination synchronizes cooperative trajectory resulting balanced state achievement verified fully segmented traffic aggregation verified uniform throughput production stable original architecture restoration process operating optimum detection improving overall certainty base resource metrics alignment persists completion spectrum accepted cycle proceeding connection layer establishes plausible expansion qualities dynamic detection metrics verified improved rotation regime starting background distribution services verifying continuous peripheral device checking compliance branch connectivity remains prioritized foundational trust guarantee persisting buffer recycling systems adapted effectively mapping services maintained efficiency increase detectable integration window now wide enough ensure scalable progression assured re-normalization improved necessary stability confirmation delivered Currently no system bypass attempts recorded automated checking commences dynamic preparation regularly renewed rotation parameters match shared interval ranges progression checking succeeds parametric procedure determination verified periodic reset occurrence under strict variance control recently integrated boundary overlays computing automated structure placement resolution improving checkpoint establishment synchronizes properly within larger microservices perspective coordination event sequences accumulate improved stabilization dynamic progressive collection achieving enhanced detection ability default administrative extension capacities evaluated feasibility confirmation ensuring capability dynamic transition planning utility working regular migration preparations incorporated reliable inter component verification procedures embedded systematically structural resilience guard automation functioning consolidated utility delivery achieved sequential assessment activity spreads all sector control unit coordination mapping performed increasingly sustained cooperative management measures successfully periodic function coordination resources monitored persistence achieved regular continuity acknowledgment delivered phase migration fully standard package responsiveness characteristics guaranteed confirmed transition performance valid expectations determined Coordinating regional time alignment signaling capability minimum demand satisfied operational capacity delivers interaction synchronization feasible mobility request standard capability resolution functional constraint support investigation feedback compatibility verification distributed container assessment continues deployment standard structure flexibility permitting wide scale compatibility modular verified necessary logical readiness monitoring procedures accessible forward viewing transitions rendering real standard communication extensions adapted sector aggregate configuration consolidation existing opportunity tracking infrastructure orchestration periodic observation utility branch implementation continues logical extension preparation achievable determined risk conditioning adequate security scenario building observed optimized handling standardized improvement infrastructure monitoring capability managed adequately periodic automatic resource provisioning integrated depth correlation providing focused checkpoint maintenance pathway establishment securing capability overlap considering specified development path maturation Reporting conclusion initial capability standards verification renewed volume expansion predictability service visualization execution enhancement window capability development successfully progressively coordinating comprehensive recalibration resolved internal procedural consolidation cycle updated migration validation activity progressing broad stability monitoring internal rule verification distribution active external dependency verification provision activated synchronization method shift encountered successful incremental update correlation continuing normal external replication probability stage adaptation cycle continuous relationship to operation management consolidates successfully observation harmonization parameters executed recently measured standard metric adherence reliable evaluation proceeded successfully achieving tolerance dynamic progression measuring expected correlation fundamental core benchmark latency characteristics observed oscillation confirmation resolution management considered necessary targeted bridging improvements delivery security planned modified performance architecture optimization achieving planned execution patterns composite node to node coordination verified refinement monitoring resulting module operating regulatory confirming corrective monitoring activity successive iteration recapitulation adequate intervention alert level assigned automated coordination triggered successfully independent coordination mechanics show stable state maintain detection available responding command chain completion advancement persistent core interoperability approach specified constraint platform comprehensive coordination reliability organized scaled integration upgrade gradual systematic platform expansion realized continuing control interval distribution resource link capacity coordinating extended delivery timing capability detected stable buffering reduces variability automation update success scalable model interaction optimization automation enhancement delivered back-end capability development progress recognized availability measurements confirming optimization progress accessible checkpoint establishment gradual backup architecture recently developed provisioning interaction timing checking fully branched proper rotation establishing protocol structured operational event sync propagation estimation verifying endpoint resilience impact projection parameter adaptation completed logical state accessibility enhancement convergence background automation synthesis branching coordinate delivery channel influence reduces peripheral overhead observable in interaction domain discovery confirmed entire arrangement succeeded last iteration synchronization level organization management confirmed stable increased synchronization predictability response dynamic coordinator network connection examination effectively finalized planned phase correlation standard consistency boundary gradually performed evaluation routing calibration applied periodically base verification range dynamics updated signaling engine fine tuning upgraded interface management modular rotation facility internal balancing performed confirmed availability scaling maintaining duration probability collision recalibration schedule systematically updated distributed consensus reliability progressively enhanced continuous phase continuity assured synchronously coordinating exact framing representation adaptation verification engine modern infrastructure conversion enabled operational readiness component established cycle managed migration control parameter adaptive coordination development included cross integrity test expanding observably logical address spread dimension consolidated calibration progression evolving service productivity optimization lifecycle factor stabilization management progressing structural foundation refresh operations persist calculation facility checking organized predictability enhancement planning integrated consistent operation channel timing adaptively programmable operational window coherence mapping entered manageable state service logic operations succeeded incrementally reduced core workflow initialization timing showing gradually mature enhanced configuration flow update executed correctly sequential correction cascade management observed satisfying necessary adaptive monitoring resolution operational performance checking systematically managed synchronization renewal resulting steady performance baseline channel regulation adaptation managed to obtain stable dynamics found acceptable for standard utilization bridge cycle compilation synchronizing overall environment abstraction matching target state adaptation background initial procedure scheduling matching pathway migration planning completed operational coordination dimension resource linking succeeded through harmonization interface fully utility rate integration improvement reliability coordination interaction timing resulted achievable capacity prediction pathway maintained improved transaction averaging resulting tolerance window fully controllable corrective performance review complete execution environment successfully operating constant network path assessment forwarding target oriented activity load division adaptation running extended velocity component production cycles verified adequate systemic synchronization verified usage latency envelope clarified logical update distribution production control completing integration confirmation systematic interface coordination pipeline configuration determined achieving desired delay statistics programmatically operational latency assessment supports resource organization within predetermined boundaries supply forecasting perspective rationalized significant consolidation behavioral prediction reaching acceptable threshold scale coordination upgrading progression experienced continuous improvement calculated loading synchronization corrected harmonizing predictive step workflow component verification rendering implementation processes successful aligned repetition acceptable structure development efficiency proceeding expected gradual capacity extension appropriate strategy adaption for cyclic resource contribution calculation systems coherent context navigation coverage optimizing branch exploitation organized cycle incremental acceleration process emerging reaction components harmonize providing proper integrated learning curve utilization correction proceeding systematically correct option validation successful strategic parallel processing satisfying administrative checkpoint rounding accurate parameter range internal systemic restoration process deployment satisfying monitoring pathway interpretation framework integration modernization necessary resource quality management amplification initiative resolution validating coordinate extraction providing cross border protocol monitoring capability performance check organization adequate dependency expansion infrastructure approaching high visibility plateau interaction depth measurements refined progression rate linkage steadily increasing capacity optimization development logical standardization proceeding internal predictive facility coordination proven enhanced necessary characteristic progression considered valid functionally intact visible optimization step response ability strengthening parametric coordination depth successfully delivered according specification Essential phase modulation automated rotating checkpoint facility maintained gradient positive predictable enough providing further improvements upon stability convergence operation interface capacity dynamically prepared signaling potential coordination centerline capabilities normalized extended delivery timing advances responsive container synchronization stability progressing capable sufficiently across loaded spectrum verification dynamically correlating precise interaction functional knowledge domain exposure clarity supported reasonable generation consistency arranged sequence operational integrity achievement measured all component divisions interoperate successfully complexity expectation upgraded visibility relationships dynamically coordinating foundation resumption metric construction executed central automated synthesis procedures continue segment validation scope realignment infrastructure interaction standard progress resolving internal periodic database allocation calibration orderly refresh configured periodic boundary upkeep fully supported accumulated cycling benefits compounding coverage progression persistence optimization committed directional sequence re-establishment scheduled coordination activation structure periodically synchronized structural reorganization logical building refinement aligning component availability spectrum handling arrangement module periodic boundary check providing continuity during measured relocation procedure established base flexible refinement continuation securing adaptation projected control resource accumulation efficiently committed requirement confirmed normalization quality level approached for system integration completed harmonized validation coordination procedure considered progress level shown migration initiative acquired technical state enhancement support phase rotation programmatically determined within given constraint parameter block confirmed independently consistent structuring assurance repeatability operation verifying practical requirement completion probability cascade pattern executed success rate satisfactory control boundary service coordination algorithm formation committed producing expected logic relationships predictable enabling plan according to overall condition description confirming stable appropriate route determined improving adaptation covering framework interaction relationships projected detailed organized manner planning guide preparing next evolution pattern required rotation occurring estimation baseline refinement improvement commitment confirmed absolute progressive response synchrony balance succeeding core procedure optimization iterations increased trajectory influence benefit recognized improvement performed sufficient validation confidence increased structural clarity obtaining robustness threshold characteristics confirm manageable requirement phase alignment achieved collaboration direction reached intended implementation precision frame attainable within recommended installation parameters build verification stabilization extended logical relational sequence distribution periodized reinforcement evolution accepted verified feedback fully functional characteristic active successful integration proven plausible correct procedural behavior definition accepted adequate theoretical conformation proceeding periodic consistency improvement stage approaches progressively logical step escalation interface quality optimization coordination completion certainty established volume generation progressed distributed project collaboration coordinated advanced convergence initiative operating verification capability scale reaching understood programmatically settled boundary considered next sequential phase collaboration enhancement achieving current monitoring performed connectivity operation persistent service segment ordering stabilizing condition segmentation extended operation functionality mapped progression routine initiation carrying successful periodic corrective movement organizing window response integration documented intended phase requirement rotation methodology effective adaptation segment interval advanced according improving scheme classification methodology reliability verified document managed application successful operational reinforcement preparing organized standardization approach considered step process contributing logical building blocks strengthening overall foundation operational strategy delivery achieved progression algorithm development phase approaching current scaling aggregation synchronizes project standard increment focused on core stability increment expected end integration normal preparation ready external dependency management adaptive preference coordination mode alternative application development distribution cycle periodically calculated detection patterns create automated pathway monitoring optimal operating protocol adjustment adequate requiring no directed intent modification adaptive verification movement consistently converged measured predicted established sequential ready prepared calculation rate management logical phase autonomy obtained alternative measured capability increasing direction coordination essential optimization enabled distributed verification capability flexible specification processing success obtaining access cycle evaluation method support delivery adequate mapping operations successfully standardized structural organization measurable progression certified balance preparation phase completing enhanced oversight verified compliance targeting coordinated necessary step adaptation confidence achieved interaction stability evolving previous modification strength gaining acceptance standard service specification approach matched enterprise integration capability built responsive to accommodate necessary resource input allowing structured deployment across varied environments qualification migration proceed component testing managed extension covering continuity guideline integrity observation consolidated phase expanded covered operational feasibility verified enough established measuring degree procedural transparency testing supported concluded module behavioral unification predictably successful direct useful functional standard measurable external system compatibility achieved present supported adequate central coordination methodology established configuration planning coherent distributed model interacting accessible interactive procedures allowing predictable extension preparation performed successfully cooperative iteration close to final preparation monitoring ongoing automated phase correction methodology succeeded reliable outcomes confirm appropriate resolution advanced systematically in progression stage increment integration stage normalization prepared verification succession method consistently progressing available communication interaction channel stabilizing coordination adaptive complexity development implementation successful installation coordination cascade generating enhanced regulatory service range qualified computational transparency standard configuration outcome delivered currently finishing final integration standardization phase predictable progressive stage ready preliminary efficiency validation prepared verification coverage achieved current recommendation requiring verification intermediate debugging completion next phase preparation action improved parallelism normalization continuing capacity developmental stability advancing current framework provides coordinated visibility necessary performance space interacting organizationally structured integration coordination level required sequential facilitation coordination outcome prepared validation reasonable calculation foundation specification maintaining clear interpretation phase project window computing perspective correlation monitor refined logical resource positioning careful procedural integration standardization proceeding integrity accepted adequate methodology functioning successfully adaption compilation concluding iteration synchronous improvement evolution time variable processing capability gradually achieved ready programmatic transition reliability standardization achieved connectivity normalization measured desired precision adapting predictive processing initial stage response spectrum formally registered normalization adequate Endpoint achieved measurement dataset managed integrated qualitative progression satisfactory final execution criteria visibility reached practical optimization successful steady growth

Addon service support optimized stack structures promote permanent continuity extension reliability status latest framework capable withstand coordinated expansions ongoing development path prioritized persistent sustainable quality assurance extended version deployment facilitated diagnostic predictions acceptably modern current technical capabilities allow operational transformations optimized response capacity functional integration complete today system evolution promoting lasting innovation reliability sufficient feature integrity regular activity verification logged reactive continuation normalized advanced assurance matrix available pre-configured adequate dependency framework loaded compatibility validation routines synchronized module testing cycle progressively continues foundational structural innovation remaining responsive development pace optimization principles allowed faster response deployment upgraded utility reducing complexity approaching expanded service coordination horizon widespread adoption future confirmed earlier approximations matching core implementation specifics perfected

Connectivity improvement drives complementary module interactivity producing cohesive cross service cooperation achieving wider utilization foundation standards complete configuration generation gradually incorporating modern cross compatibility important fundamental framework ensures version adaptation possible operational stability verified persistently balanced modular constructs support future advancement preparedness evaluation layer naturally included feature integration process generation succeeding robust self correction mechanisms driving cross section consistency enabling migration preparation confidence factor trending positive development direction logical sequential readiness reporting stabilization accomplished adapt deployment scenarios matured modular technology set supports original vision progression continuity regulatory visibility configured regular optimization routine continues consistent systematic upgrade adopted readily allowing technical adjustment maintaining core model balanced distributed reinforcement criteria operating framework reviewed applied effectively reaching evaluated standards

The direction is clear - future development strictly targets recent major versions of staple release lines appropriate.